f miniver upgrade for the avid system ,' ' … miniver upgrade for the _" avid system...
TRANSCRIPT
mm_ : .',"_ NASA Contraator Report 172214 _,* L
f
= MINIVER UPGRADE FOR THE_" AVID SYSTEM ,'
-':' VOLUME II1: EXITS USER'S;_ AND INPUT GUIDE i
-5
_iBDI
.-..._,
John E. Pond ,_-'-, Gral9 P Sehmltz '"
_ REMTEGH, Inc._ Huntsville, At, 38805 ,_
Contract NA$1-16983August 1983
q.,
(IUI-,CB- 172+ t+) a1B.li;fgil UJPGa&DRt01t 2Hi llOq-! 17'73 "-.. ., AViD S_S28m, VOLUH 3: _XZ_S U_a_'S AJO .*
't £_" ZUU2 GOZ08 fLaal Sepol:t (hlteels, .Inc., * i.lllootawJ..Lle,, Jk.la.) _06 p liT: AIO/_I_ AOI Unc.].as _i_ (:SCI, 12& G3/6 1 q2.193 _ ,_,
Nat_or,alAeronauticsand ,,SpaceAdmm_strahon
LdnOleyR6searoflCenter _.Hemp*on V_rg,n_a23665 ,_..
_ j
https://ntrs.nasa.gov/search.jsp?R=19840003705 2018-06-13T10:43:25+00:00Z
r,
1.0 I_OD_C'rION . . . . . . . . . . . . . . . . . . . . • . 1
_: 2 _(_N_ DXS_OSSXON.0 . _ . . . . . . . . . . . . • , t • 4
L_,
_ 2.1 SLABMODEL.. ... , , . . . . , , . . . . . . . . Jl' _)LUTION $_. :_.2 COKI,,h_IS(_WI_ ANALYTICAL . . . . . . . .
2.4 ,.Lx.n ............... -• @
?.,: S.0 DESCRIPTION OF THE I_08P._!, . . . . . . . • • . • • . . 20
' 4.0 D]_S_tXPrlON OF SUBROUTINES, , , . , . , , , . .., . . , 2_I
4.1 MAIN. . , . . . , . . . . . . . . . . . . . . 254.2 I_OP ..... , . . . . , . . . . . . . 26
i' 4._ S_BROUT_BIN_' . . . , . , , • , , • • • • • ..• __'" 4,4 _UBROUTINBDATA_, , , , , , , , , , , , , , , , , 27
4,$ SUBROUTD__MPCC , , , . , , , , , , , , , , , , :_94,6 S_BROUT:I_ESTR0_, , , , , , , , , , , . , . , , 314.f $_)_ROI_E LOAD . . . . . . . . . . . . . . . . . 31
Sl4,8 _m_o_r_s_. . . . . . • • • • • • • • • • •4,9 _BRO_EDATA_ . . . . . . . . . , • • • • . . . S34.10 STI_OOT]:HRPIOZI;R . . . . . . . . . ...... . 34
_ 4.11 SUBROUTD_ G)MTMP . . . . . . . . . . • . . . • • SJ4,12 SI_BROUTINBNODE , , , , , , , , , , • • , • • • , 36
_: 4.13 _,UBROI_2qE BEATN, . . . . . . . . . . . . . • • • 37i 4.14 SUBROU_II_VFAC . . . . . . . . , . . . . . . . . $7i_:, 4,15 _BRO_XI_ DIST 38_ O • • • 6 • @ • • • @ • , @ • • •4.1(; S_tolYr]_ _I'_ . . . . . . . , . , . . . . . . $9ti_ 4,1'/ SUBRO_ INI_EO . . , , . , , , , , . . . , , 40
4.18 SUBRO_'rXNIgSUBPR.............. • • • 414.1J, S'OBRO_I'I_IE5RXF$' . . . . . . . . . . . . • . • • • 424.20 SUBROUT]_Y_(_)R8 ................. 4S4.21 _UBROU'I'IHERONB1_, . . . . . . . . . . . . . . . . 474 22 _U_o_DII_ _ke S_ _O O O O • • • • • • • • . • • 6 • •
4._3 SOBItOUTI_STAND. . , . . . . . . . . . . . . . . SS4 24 SOBI_OUTI_79]_S 5_ .*
, • , • • • • @ • • • • • • • • • • /
5.0 INPUT. . . . . . . . . . . . . . . . . . . . . . . . . . _1
' 3.1 IANMIN OgNI_LA1"FJ)_._IItONM_T FILB . . . . . . . . . 82 ':. S,2 MA,TEIIIAL_OPI_T_S_ILE . . , , , , . , , , , , , e4
_.s SI_U__IL_ _._, __.,_ _, . , . , , 81
. sxn, z-suon) ,,,, , ascss mONno,
COId_0AT_) _2 ;, @ @ @ @ @ @ @ @ @ •
00000001-TSA04
T_JLEO_COI_._L'S(¢ontinuod)
_m
Seotion PaSe
Ir _.o OUTleT... , . . . . , . • • • , , • • . , . • , • . • J8
7.0 CONCLUSIONS_ID RECOMMEI_ATION$ . . . . o . _ . . . . , 146
8.0 REFEREN('_S . . . . . . . • • • . • • • , • • • . • • . • 148
A-_' _PENDIZ (EXIT8 LISTIN0) *. , . . . . , , , , . . . . , ._ 1--A"54w
o
....
: , q !
i , 1|.. ,
i',
, . ttt .,.F-_ ,
0000000]-TSA05
/, "
hotiol 1.0IODtJZON
i aq-,._
The E_Lt_ sods deso_ibed in this doounont is t thermal _ulysis tool vhiolt" y
allows the use: to tepidly prediot thermal proteotion system perfomenoo foe |d-
_; _aneed space transportation vehicle reentry. Desian end welahts optimization
:_ sin be a_cempltshed by rep0ated analysis within the oonstraint8 and 8uidelines,q.
of system petfot'manee.
EXFFS is desisned to run interaotively on i small o: mainframe _Oml,_ting
._._ system in eonJ_otlon vith the L_M]34 sods. LANM]Iq,as desextbed in Volume Z andq.
;_i ZZ Ls rmi, given a trsje_toty_ geometry, heatin8 rate methods, ate., to provide,o
...' an input file oontati_in8 the thermal enviro,wAent information _eeded for t_e body
_..
;_. points speoifted. Information flow for this passaic is depleted i_ Fiit_te 1.1.
,_ The uses then sells _t_ in an tnteraetive mode and sets certain input
patmetets, start time, end time, paint ttmeb eta. and defines the TPS 8t_uetILte
_ by molesting struotu:e types _:om a menu presented to him. In its present fern,
_ the mean oOntstn8 seven dt_tezent 8truotuze types, tnel_ding an ablatot, slab,
ii'! tSdiatio_ aSP, eta. By 8taehin| those stt_©t_e8, the entire TI_ is defined and
a nodal mesh is automatically Senetated. EXITS th_s ues the LANM_N 8enerated '_
input file and Oil©_lites the temperature history of cash node thro_sh the ,I
stt_ct_t6. '_.I
_utin8 the oalo_lttion, all o_ the heats a_e ttitoaratod and printed ont., i
i | _hese include the so.coted, retadiated, sensible heat, ablated heat, i_d ad- !
:_ ;, v6eted heat. A total energy balance t8 made to detei_tno the method's eon_et_a- '
I,
,,. _]_ ttSii lt_ explicit (Railer) iuteitation of tile onotay equation as/n0 i
oq/li_ileut radiltion eondUetotdl _here intet_tl st tetidittiofl crests. An able-
00000001-TSA06
tien routine has boon luulQdod usLnS a simp.t__ebleto_-sQbltme_ model vhL_h _n---
eludes the latent host end host _duited _ot the movies tntorfsoo (advedted).
r_ l_or mJtetisl8 vith hiSh the_ell oonduetivltF (eltminumj #oppot, eta. ), J thee-
=ally ' wthln't st_Qdt_Lte has been included to avoid the time step ptoblons oz-Y
pll©ft hotbeds have vith those materials. Deteils Of these noshed| axe dos-
otibed in the Teohniosl Dlse_ssion_ _Joetton XI.
The prosteu, ottuetuze, fJow obsess, ere. see Siren in Seotion III. DesotJp.-
tion of _osttm, I_aoh s11brol_ttnois dese_ibed in Sootiou _V,
Input end Output date io dosoribed in Sootioui Y and VI tospeetively,
I_iu1117, oo_eZ_Jie_e end zeooume_dAtiO_sa_e presented ta Sootton VII. A list-
ins of the code is presented in the Appendix,
I
-+
I
"'" 3
O000000]-TSAO8
This seotion desatibes the methods used in oagoQlstin8 the thermal response
of the TI_ ettuotuze, A basio eneziy balauoe performed st etoh node dutinS the
time marohin8 uoin8 an explioit Sulet inteitation foams the basis of the oode.
Speolal metliodl ate used to deeoribe the zesponse of the abletot-lubliner a_dJ
ther_ally thin struotu_es. Rowevet, when _omplioated structure| ate _used, the
_. p_oB_am labia branohee off and oonetruots equivalent thettnal networks, end from
_r Solutions of these networks, equivalent thermal _onductanoe is _onputed end
placed into the I_rinary the_al network.
i!_' Presently, RXITB oontain8 the oapabitity to analyse seven different Ittue-_i tu_e types. These a_e listed below as follows:
I;I!' ~-
STRUCTU_TYPE - - - NUMBER :'
• SLAB 1RADIATION GAP 2
i .ocoJs s
COI_GATI_ 4 ....z STa_OPP STJlN S[IN 6,Od3LATORS_.WLD_ 7
The methods used fat analysis o£ the slab, thin akin, and ablatoz-enbl£ner are
oontatned in thtl seotton. The methods fat the _adtatton BaP_ honeycomb, oor_u- ii
Bated, and Z-itsfldoff ett_otu_re ate sotuslly the sims as the slab so therefore | .,;
the loBt_ _eed to _oml_ute the equivalent eondnotivity is not presented here but i
Is Siren in Section 1_, Deaottptton of S_lbro_tinlt. _
' .1
!!,: _
00000001-TSA09
0 Te
oT 1
0 TOi , i I ,, l , ,,,
FqnqteDifference TemperatureDqstrtbutton
_zpandiai shout point 0 ueln8 Tailor's series _ot the tempe:atlure st 2
sx o 21 axs o
• lIn e like ni_¢, elpi_diA8 about 0 Sot the tim_e_et_e_ _t 1
_ aT _x_ S T"" TI " To " AxI-'-J +-'-' "-'is" O (6xa) + .,._ ax o 21 ax_.t
!
O0000001-TSAIO
:i _e'ORI_NAL PAGE _5'OF POOR QUALITY
If ve take • fotwJrd diffe:enoo apptotiMetion foe the time derivative as show_
below
Trt_,1 Trl
80 _e
; end substitute into the heat conduction equation _e find
4 pC _ ) = "" + -" :: 2 2 AxI _x= ,
'_ I_ the thermal oapao/tanee is defined a8.i
(;t"PCV'I "PC , 2
lind the eondueto== lie
k[t_1" --'- 8
Axt,1t
"_i We hitve, upon eubilttt_ttofl aAd aoae lileebtt f_* 6
ct I *_;
00000001-TSA11
..q
ORJGIJNO_,LP[v_i_I;Q, OFPOORQUALITY
ThAi _zpeosJio_ is the bl_is of t_a thereat bsll_oo at eauh _do t_ the eOndua-"
tiO_ Utlotk. HoWo_st, Jot d_odoledJseont to i _idiltion 8_P of sttuetQro ta
wh|eh the helle ttenilfet mesh|Siam 16 not b_ puee e_nduotion_ we asB foam
e_ui_elent oond_Otozs.
Tko maxim_ stable tame Jtep_ A®, whioh esn be taken _Jn be found b_ tesz-
_. cellini our finite diffete_ee sljo:itha so followSJ
_:' ,n+| 11 n
_,, J Ct _] Kt_j T,1 ..,,_..
..:. sad not/hi that the snaffLe/eat of T_ mule remain positive to, eli A_J. A I_eiz"
_ ti_e eoeffielent would _eaA that the Sreate_ the temperature at time step n, the
_,,,. lesl tlie tespertture at time step n + 1 vhieh _o_ld not mike sense. We now hege
'-°
;.,,, ot
This ozite._is it used tot oil eases ezespt the thetmall_ thitz eeetio_s. To in-
-_ s_e stability aepeeiel|y _he_ the Eijs ate _o_liAea, t_diative oonduetot8, the
_.. tilde step JJ divided b_ the input parameter STAB.
ii
rl i.
' (1
00000001-TSA12
Tptcal Thermal£1ement
Half of the thermal mass of an element is alslsned to sash node. The thermal
elements ate then stmekod to define th_ oomplete thermal ptoteetiofi system. The .
slab and ablstor materials are divided into several elementl by the ptolrsm.
All other 8truotu_o types oonsist of a simile thermal eZe=ent ghioh ate stacked
upon eaeh othe, shatin8 their eomnon node points.
¢onstruetin8 the _twork in this nan_er iutroduees tliiht et#sze there "
lttuetutes of vicTimS ospsoitsnee ate adJa_et_tto One shothe_ e_d ilia it the _
Suttees node. In these oases, the node Is not plsoed in the otter eentet of the
thermal mess, howe_ot, e_ersy is conserved.
2.2 O0X:SOlq WFrUALrrz, soz.zotq tl
i At a cheek on the aoo_rao_y o_ the nuf_erioai alaorit_, the to!_tion was
eo_plted to an anlI_tioal solution, Eel. t, of the partial differential equa-
tion. The oonveotiVe hearth8 of a plato of tbioknels 26 i fish both lidos te an-
, aloious to heitin| o_ s slab of thtolnoes 6 i from one side glth a_ adiibstio
O000000]-TSA] :3
OF POOR QUALt_
baokwJll bouiidlul7 _ot_ditl_n, Xf tliJ oanviotivo lloat triililor ooott,lolont, ll_ ti _
titld oonitilit then tht tollowtnl bOQlidley oo_dltto_i itil ilPll_ ih!ee T - t-if.
l "T t att'OaT
l@ _ ,Oatx-O (centerof slab)ax
aT hT- • -- T at x • + t i (lurface).ax k
e*
I
i I
t
J'
............................ 00000001-TSA14
b.-.x ,
TAnMn ,_
Nu 2,
"_ Or'
TanMn -Np ,.".L
•
Hn Z :.:;,I,!
• Ftg. 2.1 Inf_ntte Slab Heeted FromBoth Stde$ -
Wtth eraphqcal Solution FopMn ....,,J .,_Ii
e1
i
I
00000001-TSB01
A dijit#l a_=putet ProSrm wss vtitton to find the t6ots Mn end evtlutte
• th# 8nslTtlesl selutlen, Vstiou8 n_bers of tlr, ms veto tlkon Im the infinite
JetieJ to oheok for aonvotSenoe, A tstttfsototy S_lution was £ound sttez' SO
torso _eto used,
J' The test os8_ consisted Of d lsyet of ootk one inoh thiek vith Ja edisb|tto
bI_kildo mode| _Jin8 tlx nodes thtoujh the thtoJulel_, ,k oomj_atison ot this oitle
vith the sz_tlytt_J! solutto_ is presented i_ Fi|l, 2.2. ASteon6nt sppeers to 'oe
quite lood.
mid
4.
•-:-i, •._ .
?:
?.3 _
' i
, 4
i
i
1, I
I
E '
00000001-TSB02
NOTES:
t Slab __-_J'_ ,t,, 1. 6 NOdeModel, Cork Slab _t_-_._ _4Jt'.."% ; 2. Znsulated Backstde
_.,_a_or]',_"_,.el 3. Adabat_cWall Temp • lO,41e.6°R
4. Ftlm Coefficient • .001278 Btu/ft2-aRo
i PROPERT! ESOenslty 10 lbm/ft sSp. Heat .04 Btu/lbm-6RCOnductivity 6,9 x 10"s Btu/lbm-ft-°R
12000 ...................., , ; • , • , , ,
Analytical $oluttonThermostructuresCOde
10000
i, eooo ",
j 6000 i:_
I! 100 sec.,[
4000 ,JIJ
5 sec.
Ii
2000 t , 1II
0 sec. I i
0.0 11 ; '0.0 .2 .4 .6 .8 1.0 "; I
Depth |n. : I
Ftg. 2.2 Comparisonof ThePmostructuresCodewtth Analytlcal $olutlon :_ i
00000001-TSBO3
ORIGINAL PAGE ;_OF POOR QUALITY
2.S _ZN SKXNIIOD_
1_o_ t JXab tFPe ottUotu_o whioh is msdo of J mitettsI whioh ha! | hijllIqe
thermal _Sttduettvlty, the tempotst_o 8radiant thtoush the material esn be oz-
peered to be mall tot relJtively thin sections and the host fXQzes ensoantoted
duriq reentry. If this 8radiant is to be modeled usinf the slib option, ve see
that the time step requited to resOlVe this 8rsdient viii be very moil sines in
"-_ *a sill be latje. The smallsonars|, AOl , shore one st more of the Eij_J
time step gill result iu los| Zun times gith very little isotease in eeeutsoy of
the analysis.
_.., Xf, however, we assume that the temperature 8tadlent throush the thin skln
.: type sttue_ure is zero while still allOwiS8 heat to be stored in the structure,
#e san circumvent this time step restriction sines we hate effeotively taken the
oonduetots in the hijh the_al eonduotivtty _tetisl out of the network. The
,_ resultinj slab of mAtezial nov becomes thetmall_ **thin'_. i.e. no temperature
jtadient and lone run ttmbs sin be avoided. !.
Considez the jene_slized slab Ot material end nodal network in Fisuze 2.3
)1
: l The_al ly Thtn: Structure ,
'i
' !
,I
• O, Ftg. 2.3 Typlcal Themally Tht_ Structur_ _:
;" I
If we w_tte the equations tot a heat bsl_soe at time step n + I at nodes _ _s_ '
9, _e hl_Te I
" CaT_+s • 1,n
i
..........._..-_:,:x,.:..:._._:..........,, " .........................._........._"......._ _"2"_.'.-"_"_....................../'i"i"/._%'_222"_".; 2.... 2 ii_%%_,-/2 _ . . " ',, '_ 2222.212.__" il.........: "i;.... _ 2. 122Z
00000001-TSB04
OmCUNALPAG_E|_aad O_e POOR QUALITY
rl
csT"s Tscs+ (T2K2+TK - 1'8K_ . TsKs)_e.No_ if we |li_e there il f_O tompefmt_o jradient between node 2 and S find add
:' th.e tWO equstionl tosether to find the tot81 enerflF atoned tt the end of time
step n + 1, we have
$Olv/nli foe the tempocatuce ot the thin section, T__j, we attire at the alSoz_-
ttIun tot the thin skin section temperetute below
- + (T Kl - T K1 + T - T
Lookinj st this ezpteesion, we note that the OOnduotO¢ Ira has been eliminated
and will _ lOnse_ oause the _all time step pcoblem.
Con_Ide_inl the seeond law and flnd/n8 a stable.time step etltetla can be
aeeomplished as follows. PaOtoting T_s_. we have
( _ K 4_ _II' I ' illlJT K qp ,,_
2 s s C2 _ C2 �C_.i
The first tet_ in bza_kets must remain positive fez an_ stable tame step so it
tel IOwa that
AS
, (K_+ Ks) ,_1C_ + C_ e !
w
L
C2 + C_ ,,', A_ < - ' - •• -- KI 9 ._
14
5
...... : ........................ _,._,=_._._.._,;..:._;_,L_'_-:_ _--_;_-_7:_: _:- x°_.:,e-_,,,
00000001-TSB05
i ORIGINAL PA_. [_OF POOR QUALIFY
.: Consldegi_8 the f_u_ /lode network Jhown in Pij_re 2.4, n see that the aa_-
: tSoe hSs
: TA.W. "
s
_' J_ 2 3 4ii .
' TSINK TSUB. ,--.---
.j
i /
O 2.0 4.0 6.0 _:
DISTANCE ':
Ffg. 2.4 Nodal MeshAnd TempePatureDistributionFor Ablator-Sublfmer, _ I
tea_hed the sublLl_atlo_ tem_e_at_e. Addltlo_1 heat added to the s-Jtaoe whloh
Is not zadltted or oonducted away II heat wbl_h subllnes the suttaoe naterial
and td_anoee the s_taoe into the cooler netetlel.
We first _ompute an azGeee lumou_t ot heat _hlch was used to ta_e the sue- .,
taoe uode temJ_e_atu_e eve: the subl/_atlon teaJ_e:atu:e with the _Ollpwin| ez- _"t
: 1_essionI
;.: Aq. C_(T_- TSUB) ,.,_' 1
l_d th*n _et _,s,
_." TS = TSUB' ,'!, S
16 ' ':,
O000000]-TSB07
,q
As the 8u_rfaoe reseeds, the melt liu0 must also reoede, so we move the boundary
betveen node I and 2, This tumults in the mess in node 2 st temperature Ts
bolus b_ou_ht to the sublimation tempetat_e fsub, Thus, the enersy added tO9
the system must he te]_en into tooo_t.
If we look at Fi$ute 2.J below where the temperst_L_e throuSh the ebletot is
shown and
I
T I
i 't II I , , , , , ,
X
Ftg. 2.5 NodeMovementFoPAblator-Subllmer '_
_ one time Jte_ il AS, we see that if the node boundas'y between 1 end 2 i8 mo_ed_r _
":_ 2/9 &S e_d node 2 i8 moved 1/9 &S, the _eterial la node 1 t_d node 2 will be
_ _ oofo_letely el/_uted a_tet a |/_eu humber of_ ste_s, flowever, before tee _om-
' _getel_ elJ_t_at6 erode 1 6_d 2, tee stop teheu a prescribed emot_t o_ metetial is
_"" left iS _/ode :[ end _eile its tempe_eture to TSUB. Node $ ,_ote @eeoee8 erode !
17 :. t
00000001-TSB08
....ORII_IAt. PA{_ _,'i_OF POOR QUALITY"
nmlber 2, el_d t_e lramsini_j n_des 8:e renulnheted, _he 9r_aemJ flow oo_tinue8
_til node 2 is elLe_ifu_ted aaai#./
It tee now oonsidet the otiainal numberinS sOheme, _ee see that tits node _
boundary between node 1 and node 2 is a movin8 boundazy or lookinj at it tn i
another vaF_ node 1 ie fized i_ dpnoe (Eolorien) and nodes 2 and greater are _ ,I
fised (LaO:ftnSian) to a _ovi_j material. Xn this sense, _e see that ene_j_ Is
¢odvOoted st salvo©ted i_to node 1 and this enorSy tenet be supplied by the aerO-
dynamic heatin| enviro_ent. Referr|n8 to l_iS. 2,S, we sen see that this
amount s to
2A$es
0Cp 3 (Tsun T2)"
_._ _inoe this ener$y must be supplied by the aerodyna_iO heattn8 and is only re- :
•_. q_i_ed _hen ablatlon oeou_e, 1_e adjust the latent heat of snblhnatlon to ae©ou_t ,.
,,! "fo_ thiS. We then compute an effective latent heat ox ablation f_om the follo_ " t
P inlt ezp_easion
.L" " (L+ )). "i;;I .i:
i In the ezpreeesion ahove_ L is the set.t1 heat of ablation Lnef _ te the of_ee-_-, ti_e heat of ablatio_ f_ox_ the last step and y n is the vol_6 of node 1 at the
last tl_e atop.
Zn appl_in8 this method, heat conducted from nodo I to node 2 and 2 to $
,_ ore. le _oeounted _ot in the aa_benl_fme_ as th_ slab described l_ _eetio_ _.1._ _ .i' An elknp16 of this ptoo_duaee is shc_wn in FiS_re _.6 _or a hypothetieal ab- -
later. ReSults are co#pared to a steady state analytieal solution t'tOl_ _Lef. 2. " i
, _,
'j I_,' ' 1
O0000001-TSB09
i,
OFPOORQUALITY !e
,_ q• 300Bt_m* e 'l
_. , _00Ibm./ftm
i,,, C_ .3oStullbm.- °RF
, _; K-1,oxlo" Btu/_t...c. -S
, ,jy. L- 1276Btu/l_. .
!_-,; _-_, " • S460OR"" _lt
S60tlo_ 9.0
An effort wli Made throu_out the development of the EY,IT8 node to keep the
stru©t_o of thO code aS modular is polStblo end to define specific functions
which would he broken off into subroutines, By la late6, this has been sceos-
pltshede And as e result, the program ospebility can be ezp_nded without ezten-
live teproat a_*.nin8.
The method of defininj thermal structure tTpee, I. e. slab, hot_eyeomb, cot-
tu|sted eta, feeilitetee the otjanizntion of the proSrsm since sash structure
tTpe, with the exception of the slab and the sbletot, consists of a eonduetor
Oonneottn8 two nodes located at the ends of the structure and oapseitenee, one
half of which is assisned to eaeh node. The slab and _blatot are iimilarily de-
fined wiUt the 6zeeption beinl severe| nodes are plac6d ,ithin th6 structure._.?
The main dtive_ eontsins 08118 to the primary functions ot primiry su-
broutines. These primary functions in tun wall secondary routines which supply
required ilLformatiOn. The structuze of the I_XIT9 code is shown in Ta_._e .q.1.
_ The routines ate arrans6d Jo thit the MAlE controls the ptoJta,., flow, cellt
input routines, contains the time msrohinll iteretive loop and creates the outl_ut
file.
,4 mote detailed flow chart and atreni_ent o_ the subroutines is ehown Is_ i"
l_iitu_e 9.1. _eh 8_broutitie's oallini structure i8 shown in Table 9.2. A full :_
dese:iption of each subroutine is i_ive_ in the next s_©tion.
No blank cotton is used, only _d co,on arid it's lo_ation is shove in
Tible 9.$, b
; 20 '_
.i
0000000"1-TSB'I "1
i I II IIilllII I I -
MA_ X X X X XXX X X X X XPP.OP XINTPDATA1COMPCC x x xx X x x
LO_kSilUB x xDATA2PlC'I'OR
, COI_M[:'" NOI)_ x
iVI_AC X_DIST
:. TMsTEP ,,' 1N_EO x X
SUSlqt._' SRIPP
CO_ X X XHOI_Y XP,GAP xSTAND X X XTBINS X
:. TABI_ $,2 Subroutine Callin8 Structure
i i
4
' I
"' _':I_,._. :!
,1
, I°;
O0000001-TSB14
'i
OFpoo_QUALI_
-; EI',_VI"R X X XGAP X X X X X XXXXX ',INIT X X X X X X X XTAX x X x xTIME x x x x x x x ,
_ _ x X xx Xx x-.'_ LD x xxxx x xX x xx_ NODRS X x x x x xi et_ x x
CAc x x xFIC'I' x x x x xStIBIJ! x x x .,,TITLE X X X X X X X ,_t_Jl_,g,S x x x x x xx xxx .SAVE X X
_-- DTA x xCSUB x x .
= ' TITL2 X X I '_FACT X X X X t _',SF x xx z I
Sub_outlne PROPCo_talns No CommonStatement.
I,
'i
TABLI_S._ Named CogwOnStatements And Sub_outttse Looatlon= ,_/, !i/' I:
k
: l• t
:i_ r |lt
iw"_""' + 24 " I
!' " i
00000001-TSC01
emotion 4.0
DI_SCRIPTIONOF SUBIIOUTDqBS'e
This section desaribe8 the 1sis driver and the twenty three 8ubroutifiaeY
that oompeise the BZIT_ oode. The description presented tJ aft eve:all deJe:tp-
tion vhieh may inolnde the subroutine function, method and pr0itan losie,
4.1 MAIN
The main driver of the I_YTS node oonttola the major funotions of the pro-
_ |ram and also eontains the output malls. Loli¢ for eallin8 the major su-
_ broutine8 is found in this part of the prosta=. Constants and 00ntrol flees andZ
it_ittal Values of tntesrated heat lOadS are first Jet tO their pteeeribed
values. The interaetive input routine L_I_]_0 ie ealled. Then initial tempera-
turns ate eat and subroutines DATA1and DATA2a_e ©alled to obtain the material7
- prope:t_ and e_viron_eflt data. A oall tO subroutine NODEsate up the thermal
net_to:k of nodes, eapaeitora and conductors for each body point. A ull to PIG-
TUR mends a depiction of the structure and node location to the line printer.
-_ The temperature inteitation starts with the time loop after further ini-
tialinatton. Output and units eon_ereion take plane within the time loop which
is eontroled by the print flaB NM. The adiabatte wall enthalpy, film eoeffi-
eient and pteeslu_e iS found from a call to HI_ATN. If an ablator-seblimer is
utedo the ablator _ropettiee ate found from two calls to SUBPR. Valnea for the 1
oonduetota and eapacttota ere ooenputed from COMPCC.The time _tep DTSM i8 eel- i
culated free arability o:itetta and the user supplied psrameter STAB. . IJ!
f Tenperat_es for all nodes in the structure are oomputed at the end o_ the tifne
rstep by subroutine COMTMP. If an ablator is called for, the secession and
renu_berin8 of the node and oondu©tor seqr_enee is done in ABSUI). Finally, st' !
: L
25 _
00000001-T$C02
4,3 StYBROUT_I_IYlTP •_-- I
Thls sub_outlne Ilnea_ly Intetpolste_ in _Ithat two or th_e di_en_ion_l
a_raya _ot naterla! p¢ol_ortles a_ a fun©alan of tem_erattt_e o_ as a _unetl_._ of
temperature and pressure. The stimulants X, P, N_ Y, are _aspeottvely, te_pa_a-
tu_e, pressure, table _unber and the _etu_ned property. The subrou;ino interpo-
lates in both nOnova_iate _nd bivatt_te table8. Ablatot-snbllmer properties,
enblhnation temperature a_d hut of _ublimatton, a_e not found by XNTP but are ./
found by' _UBPR. Data fat tht properties are stored in the array CCIN.3") fo_ the ..
monova_tate a_tays and CCIN.$) and BSVIN, TT._t,) arrays for the _ivattste tables.
The _r:aflaement of data in the at_a_s fat the t_o t_pe8 of tables _:e sho#_ In
tlte follo_inf etampleJ. Data fo_ the aohovarlsto tables are 8hov_ in Table 4.1. .l "
t,
(
.... 00000001 -TSCO3
_- ORIGINAL._r,,_i_I'Z_OF POORQUALITY
C(:(N,2)-------0.0 1.39R-S--- CC(1%3)CC(N,4).-."-460.0 1.$_E"S-'---CC(N, S)
(S(;O.O 1.J)4R-J *l _10.0 2.JOE-J Il !
CC(N, 10).,-.1000.0 2.50E-5----CC(N,. 11)
TABL_ 4.1 Attsellement of DBts FOr MOfloveriste Properties
Data t_t the biva_isto table ate shown in Table 4,:2.
Iui_ially a shank is made O= the ei;n of CC(N,2) to determine if the data
tot table N iS monovatiate or bivariate. It the siin is positive, the data _s
seatohed to find the two temperst_es to interpolate between and a sttatsht line
inte_polstion is used.
It the siam on the variable CC(N,2) is neaative, then a bivariate table is
assumed and the independent _ariabl© assay, pressure stored in CC(N, 9) to
CC(N,(-CC(N,2) �¨searched to find the in0tement in the presses direction,
The temperatures ate then snatched to find the ave temperatures between which
the iute:]_olation is to be peats:mad end the _ressure amazement applied.
Fi_II_, with two inte:_olated values found in the l_ressute direction, the tem-
peratuxe in©resent is all,lied and the final value is oonputed and returned
through Y in the et$_ent.
4.4 SUB_OUTINSDAT_.1
Subroutine DATA1 finds the matezisl ptopert7 date tot the material8 8ivan,
tee, tuberS the restarts1 identifiers, J_TS(I, LT, IM), and stores the material pro-
, pett_ data i_ a_taye to be used later in tho thermal analysis. This routine
" first reads thtoujh the data and picks out the data tro_ the materiels used in "
: the model Material identifioation nubers are then chanjed to the order in
• hi_h they appear to minimize the stotaje requirement in the CC(_,7) tied.
B$1_(:t. J') arrays.
.:._,,1Oo,,,.o.o.,,.,,,.,,._.o.................,......,"_"......"_" .................. 00000001 TSC04
OFpOORqU_l.l_
_ =.=._._ . . . . ._._._._
• ,_®__
• • * • 6 e • 0
ql, 6 • • • "
:;.,i ,%'_',.i z zz_ g
_'*°_'___.__.:._..,..o....'..,::._,_:.,._:.".-,.,_""'',"o' "" '_-'_-*°...."" *...."_ ............ 00000001-TSC05
Wheh a mltotiSl is found Or matched to the matsrtll spe0ified_
MAT(IjLT, ZM), this ro_tine _eado the title ottd and next let of ditl cards 86-
* oordinj to the number Ipeeified. The next three seal a_o then.tend for a total
of fo_ tables. If the fttst entr7 in the independent at_ay of any table is
no|naive, the table is aiiumed to be bivatiite and a different set o_ lento is
u_ed to stets the date, Data for the memorialise tables ate stores in an arrays
CC(N,3), the_e N i8 the table nuaber. If the data Is found to be biva_iate,
then the independent variables a_e stored in CC(N,_) arts7 end the dependent
variables a_e stored in the arta_ BSV(N,_,[)_ Table 4.6. Bach materiel ptopett7
set in the propetty file must appear in the prescribed order, density, specific :
i heat, conductivity, and emissivitT. Units fez these properties must be entered1
i in BT_'e, feet, seconds, pounds mass, pounds force, and deAtees Raakine.t,
Fez ablatoz-subltaet material, the material property number of the fifth1
i and sizth property is entered on the title eard. When the same materiel /den,-l
_ airier number is _oond, the tempsrat_e of subl£mation and the heat of sublime- ,!
_ tion aa a function of pressure is 8ires ae the fifth and sixth property and
stored in the azray C(_(I,J).
' 4.S SUBROUTSCOMPCC
i_i: _ubrontt_ COMPCCcomputes the values of the conductors a_d oapaeitora for
ti_'_ the network. The oapaoitot C(I) and eonduotor CD(I) values to_ the slab and ab-I
,,
later St_¢tt_e types ate computed directly in COMPCC, Capaoitot and oond_otott
values for the other sttaotute| are found f_om routines sailed face COJ4PCC. !
Values for the oonduototi between the nodes tot the slab and the ablator are
tend b_v eal©_latin| the distance between the nodes Stein the node position I
_tay, at(I), and then findi_8 the oonductivit_ free the aveta|e temperature Ji J
beteeeft the _odee. Condhctot values ire _ound fro_ the etpteesion I
29
ORIGINAL PAG-'I_ISOF POOR qUALITY
Zn the SdmOloop that the ©onduotots are computed, the ospeoitots are
found. The Uses of the material botgeea the /redes is oomputed and m_Itipliod by
the Ipeeifte beet. Siuoo on half the mass iJ e|soolated with etoh node, the _'
oaptoftanoe value is divided by two end half of it is seamed at ea©b node.
Cspaoitanoe value for eeoh node is found from
pjvcpsCI
2.0J=x
• where the s_nmation on j is On the t_e_nal mass adJaeent to the node i. At this
, time, the mess of the 8truot_e is also oomputed end stored i_ _K_.
POt sttu0tu_e othe_ then slab type, SN = i, or ablator, JN = 7, COMPCC_.
_ _ b_enohes off to the followln| tontines, Table 4.$.
i° ..... iI: ' _truet'_e
i,. ;rN Type Subroutine
2 _xDIATIONGAP Rf_APS HON_MB ItON_ :4 q_OltltUOATI_) CO_5 Z-ST_OFF STAND6 _'I_IN' ' SXIN TH/:NS ._
s
TABLE4.$ Routines Fo_ Cofbpotln8 Effeetive ConductanCe
Before bran_htni Off hewers,, subroutine LOADis eelled. This routine takes In-
formation, (i.e. jeometry, materials ete.) from steed common, LD, and loads it
Into the erased eommon, 0AP, The subroutines _alled _ben _N = 2 thtou|h 6 oom-
puts the 6ffeotiv_ theist oonduotenoe, X_, m_es ZN, and ea_acitanee values (_P1 i
and C._ end returns these values throuih the na_ed oommo_ LI_. Subroutine
,i {_OMlSCCthe_ sums the _apeoitor val_ee in the C(I)s end the mass XMAS. The con- i
' duster is thee defined in CD(I).
30 ii
O000000-T$CO?
4.6 _BRO_B STeUCT
Sub_outino STRUC'_is the routine thee htndle8 the .sttuot_re filet.
" 8TRUCFopo_s _ho sttuotu_e file and either toeateJ 8 spootfio ettuttu_e
that alresd_ esiJtJ in the file o4 odds an additional struature to the file.
P J_ge_ etrutt_e hail 8 oor_espondinJ iltru_tu_e number, and a two line desottp-
tio_, alone gith the sttuetu=e _sriables.
4.7 S_BKO_ _
Thit _outine tokes date from the t_med oo_on LD which desottbes the Seone-
t_7 and materials of the tollowin8 stru_t_e types ii
RADIATION_AP
:_-STANDOI_FTa_ SEIN
and loads it into the ned eo_on GAP. In _ddition, the temperature of the
upper and lower surfaces are let _or the material p_ope_ty lookupt and the radi-
ation eondn0tJnoe, The material tdentifie_ nunbers MATS(MP_I_,I) i_.e loade_ !
into the M(I) array and the siz 8eomet_io psr_etets, XPIMP, IS,;), are loaded :
into the _111 array,
!'
4.8 SUnO_TI_ AB_UBt
Subroutine ABSUBprovides the folio to ptedtot ablatot-sublhner teoeililton, 1,,
the _ods fpa_in8 and rite effeetLve hett of ablation. This routine is eel led by }
t_si,', after th_ snblts_tlon temperetu:e t8 retched, lblStot variables are jpilsed
throne11 the n_med oonmoft _JUBLM_here the followtnj vartsbleJ are stitntfiotnt. I
I;
I
00000001-TSC08
it"
I,!,: ta_ - SublieAtion re=peter.to ORJGJP_LP/_I_ _ Ir!" _ - LntSAt heat 0£ |tlblimotlon OF POOR QUALITY[,: ]11,1) -£fteOtlve host of sublbnotlonP EXCI]T - I_xeeilJ host over time step
iii RICI]SV - l_xeeis beet free lOSt time step,. _d)V9 - AdVooted _ost from previous time step ,- ,,l, TKSY -" Time it gest itezationI'
Ii ,FirSt, this eoutino computes the diets_ee of tbo surfioe teeession, AS, bythe foliowin8 expression _
ito_ad uetnj the followidj wit|able PJmo!
. i] i .1
T_aS 1_t (IC} i_. CO_XCmNT acl (zc) /ADX_ATX¢W_L_PY SAw,(XC)/
,,_ssuns .... _xEsl (zc_ii
T_o lstSeet number of entries in those tables te dimensioned by the oommon _nri-
able NMENand outrentXy eat ¢o $0. I_ I s_aroh of the file does not reveal a
matsh of the body point nuabet_ a messeje is l_riuted, CAHHOTFZND BODY POINT,
4.10 SUBROUTINEPICTUR
Gubtoutine PICTOR displays S des_ription of the structure for A Spe_ifiO
._"i Body Point in the fo_m of a pietute. PICT01t is aelled i_ the E_tlT8 ptoItJm in
two ways. The first way is from I]_I_]EO, rlsht after the stgu©ture oj_ a Body
i Point tS defined. This is a qutek look pioture, that al_Peare On the interaettve|
'.I de_t_e, and is used foa_ detetsninin8 if the Ittueture defined ie zeslly the _.,i
;_ structure deslted. If not, a_ opportunity la allowed to _edefine the sttu©tn_e
fat the Body Point oOrreotly.
The other way t_ " PICTUR is called Is from MAIN after the node _truct_t_
has been defined. Thtl picture ie written to the Output file a_d oottespond8 to
the specific body _otnt that te beth8 executed at that time.
If an ablator-eublJ_e_ st_uctt_re is _hoeen, then addttto_l emile of PICTUR
_tll O_eSLt eaoh time S node i_ d_opl_ed f_om th_ structure. For each ,,ode that
ia dro_ped, a ptott_e _ill be written to the Output file that desetibee the
atru_to_e of the body _ot_t after d_o_pin_ the node. An el_m_le of a ptetndre
"; made by PICT_R ie lhown in 1_i8, 4o2, It tneludee • J_ictu_e representation of
" ".' the Itroctt_re of e_eh layer et_©hed to,ether and also ln_o_matio_ ttke the *_- '_ :i'
,_'_ tertale used, the. structure type and some of the dtmenslonl,
..... ;,. ,_/__--- _ ............................................................. _ .......... ___._ _.
O0000001-TSCl 1
-® ®,+,
-._ + , +_
•III +_I OF_lql_tn+r'l=l_ll;NFF+lqtLl+lH_l_gNlSllllllF++IMl+BN+l+l+llllll+lilllNlll ..... ...r_..._.;. ..... , •
0,010000 |_, AL,PO?_)'T+ Z
V V +- •:, _ V VV VV VV !
V V V V V V V AL,_07_-I'(_ CO_]_II_AI'ED O,_,_OO00]hi++--+' -V V V V V V V ................ _ ....., V v v v i
.................;;;; ....................+,, !
• ; IIII _1, O++l_lllml_mlSBllmlllmlnlllmlllS,l_,lll_lUll_nml++mlQlllllll.illll ..,_._._i ++
!,+
:+_..'i Ftg, 4.2 Line print, el, Representation Of Sample Structure "
ti' PrOmSubPouttne PICTUR
i Subroutine COM_MPil the tubtout|m_.ewhich ©Ileulltes the new tonperetnteoTIZ) at the end of the time step |ivan the Old tenpo_atu:e8 TO(I)_ olploLto_o
_:i C(]_), i_d oondu_to:s CD(I] uslnll the heIt balance, _leetto+=2.0, It ea(=h of the
li nodes I. the Ittu_tu_e. Two types o+ 1oilio ere used to eomputo the tempers- '+tures. The fitlt pitt of the subroutine it devoted to 8ettLn8 up the heat hi1- )
+i_i shoes sad the bout_dilty eondtt/ons for the thin skim struet=te t_pe if I thin ',':
_+;+ thin section _, tdJJoent to the node in question. The ,emend ps,t pet.foams holt ii_i bslsmOOl tot Ill Other tttuet_tll tppo8.
• &t the belinnlu8 of the routine i cheek on the fill ISBI_ is made to deteP- +'+i
+i' +'mine if thin ihLo lo|to ti to be ulod In_ _ithtn the strmot_xte, if not, the
10810 flo_ sees diteotly to the ottntstl heat bllamoo for etoh nolo, TO dote r- i' mime If i node is edJ_oent to I thin slim elomento I oheok ti made on the con- !
,, I
du_torl sf_ eithe= side off the ttod_. If a oonduoto_ value is Ii_estet thin 10',
then the thitt etlm holt bttinoe tl to be used. (A oonduotot valse of 10 xe 18 I
let in s,brontine 1111N$1.l'
Losto is tnoludOd to determine if the nede Is above or belo_ the thin stin 1I1i
00000001-TSC12
i,
t
ii
, JeGtlon ot if Che thin skin soot/ell lien o_I the suffice o¢ is the iJet sttuotll_-
el t_po a_d eoq_tel the idlmba¢io baunds_y oondltlon.
Tile etladstd he|t bslenoo, l_ootio_ 2.0, Is used for 111 modes other thei_'I
fledge SdJloont to the thttl ekLn settler, s. A Oheoh is Udo to see i_ the _odo in
_ueotlo_ tl f luf_eoo node oe if it to tile lllt node. I_inelly, the temperature 'd
of the smeteee nbde is chocked to moo If it his exceeded the sublimation tom-
p&rltute foe it sb|eto_-sBbllmor steuetute. If thle Is the osse_ the eteoee beet
to calculated.
ExcHT.(TIll.Tsu ).c,,
the fli_ NAB set equal to one and the surface te:petatu_e set to TSUB.
4.11 SUBROI_ZNRNODS
' Stsbzoutine NODE is called from MAIN to set up the node1 _etwotk d_nd to ini-
tialize te_peret_eee. ._
The losle etatt8 by t_kln_ on_ structure type at a tame be_innin8 at the
du:feee end wo_kln| does. A check is made on the sttuettLee type, IST, to 8ec if
it let elJb ot abletor-sublJ_net. If a slab o_ eblatoe-subllme_ is _o,nd, '.t is
divided i_tO 1myers end nodes assiSfsed as follows. The leye_ thickness is _On'-
trolled by the input pe_amete_ DT_M ghich divides the tota_ thickness into
layers tO |ire 8 stible velum o_ DTIM shown below
./D'rZ iq
Cp' i
i I
,,. The _ber of la_e_e, conductors, ate _o_tsd _om
NX-.---�I lDX ' i
!
1'(
00000001-TSC13
t
eheee II te the thioheJJ of _he ela_ o_ i_letor_lubl_e_, I_i_ll_, tl_e le_Itl_
of eioh e_nduotoe in the alab il found tramf
H?K.-- .
HXk'
At eltoh oonductoe, the erodenumber at the upper and lower end of _ho ooltd_otor
ka stoned in the L(ICj3) ateaT, the initial teepotatutos T dad TO are Jet and
the node positions XX(IC) ace eJeleued, lethally, at the and of this eubeootiM,
the network issformetion is ,eitten out which slam8 node spaniarD, |ttuetue tyro,
material type_ ¢ond_otor nutiborj and node n_mb_r8,
4.14 SImROI)TX_qI_VFAC
8ub_outiu VI_ACcomputes the jeometri_ view feoto_ of NN two dimensional
s_rfaoee aetna the oilseed eteilied method. The named eolsmou 81_ oontain8 the
. area, AR(X). e_iesivity. EPP(I), view fanfare P(I,_), a_d ares vies teeter pro-
du_ts kSle(/.$), of up to ten sUetaoee vhtoh _ey see eeoh other _ithin an amain-
awe. Coordit_ttt bf tht end poiett of straight |ins s_fteea area contained in#
the _ slid Y_ atra_8 in the _med memnonFACT. T_o nested DO tool, s, I end _.
cycle throt_fl_ each surface. The area of suntans Its to_f_d from the 8ub_o(ttttse
OF POOR QLIALrCV
DXS_ which fines the di_telioe botwee_ t_o o_d p_inii 8nJliinl that the i_tta¢6
tis sttliJht line eurt_eo.
: Tile vitw fasts: usin8 the crosses streets method i¢ lhown below, lieS, 5. ,
Given two lurfioes shown L_ _i8, 4.$.
IX, -3
L2 °Fig. 4.3 Crossed Strings Nomenclature
J 2 At
In Otlle/ words, the View fsotO/ from surface I to 3 re equal to the ienlthe
of the cioieed etrinis sinus the _mcrossed et:inie divided by twi_e the ires of ': II
s_tfece I
Snbtoutin_ iilli is ©ailed to find the lengths of the o/Oiled and elicit.lied i
sttinis, The variable SUMilil the lul st the view factors Of ot_ 8uiZaoe _o ill
other su:fe_ei lhioh should equal I but te not now printed ollt. .il
;l
!
4,1S ttUBR#)UTZNEDIeT . ,,
Subiouttne DIST finds the distenoe between tie points alvin their two di-
meilsiOtll cootdi_ites. The nitied cotmon IIACTeontaiiie the eooidinetee of the " i." i
end points of the line salients which make u_ the tedietion enoloture. The > I
ooordioite8 8ib eonteliled in the viii,i) led ti(I,i) trials llhele the I isle-
" eetllt in the intfice nmbe: arid I is eqiil to I st I depondinl upon _lhteh end i IIOf the 8u:lece t| cot;sideled. The distsnoe totiull l
D- Xi Xl + (vt- Il
36
UUUUUUU1 /_lJu/
OF POOR QUALIT__ • 4.16 SUBii_T_B TNS_P
Thlm sabto_tlno detatultw8 ths-st|blo tiros |tep for the ozpllolt tSme i=-
_., toStation of the InotST balinoe it esoh nots. J_ot the 8¢nerl! Olio the ns_tmum
stlble tif_e stop for t11o nodnl _etwo_k sho_ 1_ Fllure 44 is
p
c (x) 1- ' ' (Ji)_ A_ <...CO (,,I) • CO .: MIN,• i
i
i
I+!
if'I
! Ftg, 4.4 NomenclatureFor Slab Tfme Step Calculation. _::
_ 1_o_ the _Ist vho_e t_e _ode lies o_ th6 _t_ttoe. tt_e ¢ond_to_ CD(_-_) t8 te-
i'.j_ _I&ood b_ CO_V + CRAD, the _u_ Of tlle ¢o_veltlve and tadlJti_l oollduotofs. For
_i'i ' the .diabatiO b..L_,ll. ,h, .ondueto. CD($, i, .st to,,,o.
.. 39
.i!
'!i "
_:!_": °"" "_:"...... " O0000_3O';I:YS602"
OF POOR QIJttkl°i'_'
Tho t_In uki= |tsbility _eqt_teement fo: the ©ofd_ij_ItiOn shOWnii_ Ftjuee
4.S
KP1
Ftg. 4,6 NomenclatureFopThtn Sktn TtmeStepCalculatto.
iS found 1_ iino:inJ the ve_ hish oonduetot value of the thin skin seotion. In
8enetal, the stabilit_ requitemeft to: lode N1 o_ N2 is +=
,+
. C(N1),+ c (NZ) [ iAe< ,]- CD 1) + CD (KP1) MIN "-**),._
For = thin skiff surface node, the oonveetion a=d sediation cofdUeto=| are in-
eluded in CI)(i_M1). l_or the adiabatic baek_a11 CD(I_P1) = O. :,
Afte: the minis= A eis fot_fd, the :esultin8 time ste_ tk divided by the
l_ut pa=ametet STABto ifsuze stability.
I
4.1't SUBROUTJNBINPOJ_)
t_ub_outlne _iP_l_O Is the iftertotlVa routlu that let8 up the isttlal oozt-
. i
ditions and defies the structure for each Body Point to be rue, a0ke for the " i' I
._ FILB NAMEof the file that contains the LANMIN (MINIVEr) data tot each body I
_ot_t. and atk8 to: the FILE NAMEof the file that contains all prevloully de- " ,t
fi_ed structures, (NOT_= One of this tile is oj_ttoUl) Thtt subroutine also• i.I
t
+ !
1
._J_._-+_ :..... .c ++_",. ',..'_ .'.:+_+ + ,o.,+ "+...... .., • _+o_ ,,:_. % :_........ . _,_+++.o,,_ _-._o_ • _._.+_ ....... " ,'_ ,.... __¢'+_.'.\H.,+. __. ? ,_+, ° +++_o+-.;.+++.:++_...+_.+_..+-..__,_(;y'++ ..++0. • ++...... _........... + +, .+,+.++ o_ .+ °. :+:.+ ++ +_+..+,++..++,+. ; ........ +++.. ...°.+ +...... +. .+ ....... , + ,++.°+++,+.++_,
00000001-TSDO3
a#k| foe the PgLl_ NA_ of the file thJt is t_ eo_tlin the IglITS o_tput,
_e idittdl, fttu_l and deltLtlmes f_t thJ outpl_t, i):l_t see sgto set hate.#
The oouttol pa_zmOtetJ may aide be ehsstged at this point if tha QJez dositel,
Othe_iJe, default v_lue| _te need.
The number of body 1_oint8 to be ro_ iJ then defined and the conditions fat
each body point are defined. FOr each body point, aft initial and sink tempera-
tt=t ie defined as well as the 8truetute of that body point, The strnettsre for
a body point may be chosen fto_ the sttnetute file by sttnotntt number or by
ereatin$ a new strnettste definition.
'. Crest/aS a new ettneture is done by layers usi.- structure types, material
number|, and dimensions, b_tet the structure Of a body point ie defined, a elm-
pl6 pictuze of that Structure is displayed and the etruetute of the next body
point is defined. After the structure tad inital eondition for all the body
points are defined, D4PGSO returns to MAIN.
i!
4.18 aUB_tO_T_I_ ffOBPR
Subroutine SUBPR interpolates in an array of data to find the temperature
and latent heat of sublimation aS a function o5 surface Static pressure as sup-
piled by LANMZN. These propertiet ate stored its the CC$ (N, NMBP) array found
in the named _oe_on CgUB. The data i8 sto_ed in the follotinj matures
CC$ (N,1) - N_ber of Z-Y pairs in strayCC_ (N,2) -1_irst independent variable (Presents)CC$ (N,_J) '. l_irst dependent variable
P
CC_ IN.4) - Sseo'nd independent variable
_: CCS (1%$) - Aeoond dependent ,ariable6to.
I
,tThe ro_ttne _ttst cheek8 to see if the vJlus of the aejument, I, It out of ranis
J,
', 41
00000001-TSD04
OF POORQUALi'u'_"O_ th6 independent varijbles in the table, and if so, ssliB_s the correct lub-
scripts to ezttsp61ate off the end of the table. If the value is not out of
ranije, s search is conducted to fl_d the two independent v|elsbles which, bound *
the value and a simple s_tsiSht line i_tetpoistion is performed.
(
Subroutine BRIPI_ finds the radiation intetchsnse fsetor,_, is sn enelO-
A
sture $iven the eteas, emLsslvlties a_d the 8eefnettie view ferrets found i_ VJ_AC.
The :u_med _ommon SI_ contslns the i_otmatlon in AR(I) (areas), SPP(1) (emi_slvl- "
ty), and F(I_) (geometrle view factors). The product of the area and zedlefltk
Inter©hesse fetter is Stored in A$I_(I,$).
_ The method used in flRIPI_ is a network method which is solved by an tte_a-
;_ tire technique for the radiostty between each of the surfaces. If we conside_
the network in l_isute 4.6 tot an enclosure with three surface,:..
, I!-|_ . p
,: A_
" il_: _ / \ *3 ;!
' _I 03 '
_ A3r3.1 , t
_ ' Ft{I. 4.6 Networkfor Typtca] ThreeSurfaceEnclOsure ;--J" * I
_._ we see that
_-_" mk_m I! ' qNET,1 F,1kA'1(Jk" J,J) f
! _.'_ f• !
_ .._
::: _- : ,., :..,. ._ ..., ,:_, _- ,'., ,. o • ¢. ....... :"_,_,_ ".,_*_"_"," _T'_-'O "_ '_,'_.,, .,, "_:°_.. ' ,.., ,, " " ,: _. _::(,__. _ ' _ -,:_,:k,_,' • _ . . _'_*_-_e",:_,_.:_-'_.: . _:'_. .:i%J_':_':.,';;_:.L:!._
00000001-TSD05
;. o, OF,Poor Qu^ul'Y_,,1A.'I
qN[T"_" _ (Od" [bl) "J
'1
E_uatin8 those two exl_eelsions and by us6 of some alaebtaw we see that
t
" d k Ftk
:" "1"I " _ Eb'1+ I " Pl F,I,1 kCJ
" is the ftJu_! express/On fo_ the zadtoslty at =ode J. Ostnj the followi=8 ttera-
tire relazsttOn procedure
"111+t" ",,I - 11- B)o + _ol,k
:;: where the telsuttos _atametet, j3, is ty9tca11:_ ,J_ eonverse*,ce,+,I
_; n jn-I'J,i" ,'Ii _ , < .001
-"_ GREATEST
_ is found within ten Itetatlons for the structures desctlbsd in this code. Afte_
the .tadlosltles are found, the tadlsnt InterChange area factors ate found fromi'I
(Ebl " Ebj)
whet6 the black body emi,sive power Eb is essiEned arbitrarily.
4.20 S_O_T]_ _3_
i.." This to_tltle dete_i_es the e_fe©tlve thermal oonduotlvlty, thermll _ipsel-
: ' ty end ,,ass of a oorruasted _anel section constd_ttn_ heat transfer by ©otld_t-
tton and radiation throu81_ the _snel. We first consider 6 mall sectto/t ot the
!_. _ort=asted panel shown in Ftaure 4.7 ,
_ 43L.
:
' 1
00000001-TSD06
_ I 1 F POOR QUAUy_,'
m,
d
Ftg. 4.7 corrugated Panel Conflguratlon
and ehOose t_6 _lanes of sTmmet:y end sssisn the thzee nodes 1, 2, a_d 3. The
lleometti_ a_d material parsnetees ate oontsined is the _amed eommon OAP. The.!
th_ree material thielu_esaes ate 1_1, ?B2, THe, while materiel identifietJ Are
COntained in N1, iil2_,MS. OVetJll hei|ht is _ aztd the pitoh is P. Temperatures
at 1 and 2 Are S/Yen as _ and T2. ?hess pa_smeteti ate aelisned thei_ teepee-
tL_e variable names in subroutine LOADwhieh Ls celled im_ediately before ¢OR0
i8 ealled. The temperature At S is unknown_ but jiven the temperatures At i end
2, jeometrte and thetmophysioal properties, the tef_erat_e At $ oan be solvedH
by iteration. The equivalent netwot]t _or this tystee oonsistt of i oond_otton
_eth _:on node 1 to node 2 passin8 throuth node 9. In addition, there is :adia-
time heat ttantfe: tt_ node 1 to 3 A_d fe:adiative heat transfer _fo_ 3 to 1.
,i
The eadiAtive enelosu_e _o_ the upper, lower, and eofruSated st_.uot_te it
modeled usin_ three planes shown below
I
f;"_ I_tg. 4.8 R_dte_4o_Enclosurefo_ CorrugetedPens1 *'_ 44 :
_._.,:.._,_z_* ",._!,.,: "a _ .._.... , .-"--.-.• - .._:.:_._ _ _.,,.._.::.:__....._," ....................._.. ,...... -\_-=-_-'._-"._ _ ....... ;.
00-O0"O001-TSD07
OF POORQUALI°iY
Pleae _ i| s pJ.t_o 6f aymmetty tm Whial". the omi_Itvity is ze_ J.d mll lx_oident
tJd|ltion tJ tofleeted beok i_to th_e #_olotut6 whioh is the emitted mnd tefleOt-"
' od rldiJtton from the roflootod onolosure 1', J', 2, The ooordiutet of the +i
pllnlm 1, _. J ate lot e.*d ltOred in the ZX (I.3) lud 1_ (I,_) IttlyS whe:e I ll it
'the pleno nunbet end _ t8 1 ot _ toprosenttnj the e.*d points. The subroutines it
VItAe 8.*d SRIPI_ see o,lled to define 8eoneteio view fietots end sres-redittive
: i.*tetohsqe fAoto_e, A$1_ (I,7), letom those re,tot _di|tiOfl ©end,©tot| tee !,IJ
formed ftm the followinS expressionIi
e i
Ku - At_tj o (T_ �Tj)(Tt �Tj)._ :_• , , , ,..
,I
; Ii shete 0 " St_fan Boltznen Coaetlnt '1
"I I
.tThe equivalent n_two_k fo_ the total beet transfer f_on sutfaoe 1 to _ is show,*
_.., Ln l?i$_e 4,9.
!.l,
Kt _
1__1 2KR_
KR_I(' i
, Ftg. 4.9 CorrugatedPanel Equlvalent Network I
i. The three eoflduoto_8 JLnseries Es It s |j 6nd E s J[s re,reselL the _ethe .t
4S
!.
.,..-o_,:,,._._ ....,.........-o.o_.o..-............._.o.-_,.,.,.',_;:.,_-,-,%._._..... .,............,,,..o_....__. ;_........-,_,........._,...,,__.,_,.._,_
00000001-TSD08
II I"-,'C4I_ !'C_
OF POORQUALIW'
thtoUllh tbo u_por a_d lowo_ ,urtloo_ a oontJot _onduotiioe whloh tot tho
p_o|a_t timO lJ met ¢o 10' timoa tho a_aa_ Ind tho oo_duotio_ _ath throujh tho
Oo_eQllltod IOotlou. Th_ o1_Oeslon fo,t thu thtoo oonduotofs i_ sotios II Uled * "
to tara tho oonduotOrJ ttom nodo 1 to J and 2 to 9 as Jhown balow
]
KIK2 + KIKs + K_.K_I
and
i._ ORI_+_',__/.!._':___i_:_'_,iiOF PQOR(JUAL|'I_,
When the t¢_pofit_¢ T= le sut_od tO_ the totll belt tr=nstef pet u=tt see| of
_, pi_tll ill (_oeputed
' , iT_- Tel. (ct + C4); , q I L ,ll el __]
P2
' s=d the eq=i_=lemt eonduetivitT i8 found f_om
:, Qr XK"i T1 " T=
: h example etse for llt elu=intu ooreujated panel aud the equivateut the=mat oon-
duotinee is showu iu l_ilu=e 4.10.
,I The the¢nal capaotteaoe is computed from the hess ot the ettuoture and
i split in two equal parts a¢¢iined to CAP1 and CAP2. Total =a¢8 ie round end
'_. scored in ]Bf.o,
i
4.21 9UBRO_IZ_EBOkl_i.!i
_ubfoutiue HONEYdetermines the e_te©tive thernal eonduetivity, oapaeity i
a/sd =aSl of a honeycomb oote ea_d_tehed betweea two layers. The ieomettio de- :
flnition Ittd =ate_lil ide_tltiet8 are oontelsied .in the ua=ed co=sell GAP.
Temperatures of the outer layers TI a_d T2 are also foo_d in GAP. Cell dime_-
elone ere liven by T_, the overall hei|ht, arid H the dietatiee from one flat side
L,; tO the Other fo: a hezajon_l oell. The dietanoe D is the piteh distance shown
li i/= 4.11._is_e
,! J...., /
!!_!_ Ftg. 4.1i Honeyco_nbCell Dimensions
t
O0000001-TSDIO
p_ IZ_M "1"I_:C::I-.IIf",q_-,.
ORIQINAL _A_t.: If;,OF POOR QUALIT_ I
t
.1
3"--i""1 ,
CORRUGATEDSTANDOFF
10-t ,_ ................,
" _ ! t : :
• i t ! ., " '
................ T_C_)OM. i : " : _!I : ; " I.-'."..........! ..... i......._ ........."-..........:..................."_0"..............
60_ '
, lO-S •. _ , ] ,j glut l . n n m
0 400 800 1_00 Z600 tO00 2400
'r1- 're¢°R1
!
;", t
Ftg, 4,10 Corrugated Structure EfCect_ve Thermal Co_ctuctance
4e
O0000001-TSD11
OFPOOR_JUALI'iY
The numboe st sells _ u_tt et6m, the nmubee of ooll walls, end the volume of
the msteeisl makis _p th_ Attastuea 6re ©omputed.
Holt ttS_Jfe¢ thtoujh the h0My0omb is ¢sJ_od to be bF oonduotloa tlteoujh ,d
the sots sad eidistibn vltbin s|oh oeli, _soh sell is assumed to have six sqael
_ vs118 whLeh t8 shown in l_ljueo 4.12.i
_J
,i I III
• _t _u_ 9 O
I! 0
i_; ENTER 3 0 i
!._ C£LL"_
, , i II i --. _ 0 ....
' / Fig, 4.12 HoneycombCell Hodel
,w.
_ _ Tem_etatuzej st 1 aad 2, I"1 tnd I2 :es_ectlvely° ate Jlten. Tenperatuare It 9
is solved b_ teltxstton. Radiztiof_ from _odes 1 to 2_ 1 to $ Slid $ to 2 iS I_Oltt-
_ _putld by sssuml_$ _ _le_ _s_tor st .I t:o_ Su_tll6 1 to 2 lud .9 £tOn I to $. ".
i:i ' This iS done in lieu of usin8 the Crossed st_ln8 method (sub:outiue VI_IC) sl_eo
;_' i: this ie s three dimensions! _onftju_ation. Chauses t_ the vteu tl_etOts _au be
side ees41y to retleet _ell size and honeyeomb thieknes8. Typical vte_ ts_to:s ,
aS e fU_t_ttOn o_ sell size s_d honeycomb thiekness a_e p:ovtded in Table 4.4.! 1
i .
i •.i
0000000]-TSD]2
I.!_
i:_ OFIPoO_QU_I.ITY,I
,I
Az , . !,V_ FACCOIZ_
A31 g"' ("'"'°z-J (gaoe To Bides)
;!
;:t_! .2 .I ,4 .5 .6 ,8 1.0• d _ i
" "'l h " j
I i i f
,2J .1_10 ,2_10 ,SO0 ._180 .480 .J40 ,610_._ .................. .870 .'t70 ...... .700 .6:_0 . .SSO .4SO .....SgO
.....JO .0_1_1 .07S .:Z_I .Z7_1 .220 ,SO0 ._180.g6_ ,92S .8'tS .e_S .780" .'tOO ,620
.... I I t I I' m IIIII I I IIlII
1.0 .025 ,03S ,040 .060 .OTS .12S .170
L ,,I I I .
.0 .01_. .0=0 .O2S .osO .o_is .040 .0_0. ,_88 ._8o ,9_S ,_70 ,_qS ._0 ._4o
II • Ill J I I it i II Ill
.0 .008 .010 .Oz't .02S .0:17 .0_ .o_10_,#_ ._#0 , ,#e_.... .#'IS .#7_ ,#'f_, .#'tO
U I i i i I
4.0 .00_ ,012 .01_ .020 .021 .02S ,_2S._94 .908 .984 ._80 ._79 .977 .OTS
Table 4.4 View J_eotozt i_zun Top kud JiaeJ To Bottoa OfBoz_eyeonzbCell For Use l_ztSubroutine ItON_.Z
. i
!
I
I1
SO ,:!t
• t
I
00000001-TSD13
oi, I_uORQIJALITY!
Tl_ee_#IVlllnl allQl/101l _Itlo/Ik II ,h_It_ Ill _lllnea 4,1_I
6
_ CONK 1
i
Ftg. 4.13 Equtv81entNetwoPkFoPHoneycomb i
Th£8 aetuoek dese_tbo, the heat traasfee path between the upper end lower
s_f!aoea. _lufvelent eonductori to: the conduction paths ere detetni.Md f_tm
C1 * CONK° C3 !XCl III ......... ,......
C1 • CONK+C3 ' CONK+C1 . C3*
s_d
C2 • CONK. C3- - , ......., _ '
C2 • CONK+ C3 • CONK.I, CH • C3 {
, _hert CON[t8 the oont|ot eohdUotanee bet, een the ooee alid the oatee autteee,, i• I
; cut¢ently let to 100 ]FFO/J_tS-Seo-*l_. RI. R2. led 115ire ©onp_ted u.ltt_8 the: I
, three tenpetat_te| ifid the vte_ _letoel, J_t_tll:_, the temperature at _Jtl _ouftd I
h_ telluttof_ ullnl th6 formula I
Ts - (1- ¢1 T +1__' XCl + R1 �XCH+ All I
I
. t
O000000i-TSD14
"_'; ORIGINAL i_/_e_ _OF POOR QUALITY,
Tn+l - T__9 ,TOL" .001 .TnS �_
k
Total hsa_ transfer is oOeputed _ron the _ondu0tot _alue8 and three known tem-
psratuzes. Equivalent eondu©tanoe ii then round by dividin8 by the temperature
diffe_enoe Ts-T s, An example ease is shown in Plju:e 4.14 for an all mluminum
]_oneyoomb 8ttUOt_LtS, Cel_eoita_oe CAPI and CAP2 is found in addition to the mass
of the at_uotu_e and stored in XM.
4,2 _. SUBROUTD_I_AP
Sub:outtne RGAP©oml_ute8 the equivalent oonductor value thtouah a radiation
laP. This model also includes the thermal oonduotan_e of the up_oe and lower
i_faoes. The thermal fnodel of the radiation Sap used is shown in l_igure 4.1_. ;.
J_i
i' Ftg. 4.16 Network For Radiation Gap Calculation
.... • . . .-
00000001-TSE01
, OF PO(;_tC;_UALFi_
4,
i°}_";11_,.' i "-"'_q_
_, .01°.'I_',: _ !i? :,t .ILl .,\1 ,d , , _v
/ \ _,,! ,__3- I-i, HI_XAGONALCELLHOI_EYC0_[3- 4' ,
I
• . • -o - , - . _ '.. _.,"._H._--_ ....._"
3. -:"::--'--; :__::=- "_,,. _ T.:._-".- :;, ".-.-";'T_'_:..'":.z;z._--.X_-:."_ ..................... "_._.-'-_.#._"_-°'.-[
• .i • I-. :- i -i .',:I...: , _: ....I....-*-:--'lq -.-;--c::::I::--;:::..--.I.---;::_...---_.-:..-:__..--::.-..i-x_--_q:::--::------I--:::I
_0"_-- -" : ....._ ......".... _ : ." ; ,- :: '_: _: ---_-7-1_-I o 4o0 _oo _eoo _80o 2o_ 24003 T_-_e('e)S.j .
,t
,, Fig. 4.14 Hohe3combEffecttve Thermal Conductance
_ 53
" ' - • "....... -.;__:_.,L_.k_k-_ " "" " -"
-o.__..._,_<:_:_,;........_-...;. ..;_,::;"-:v:-:_'---:__.;_:a;;_:_,.;:,.__,._--=.-_......:"-"_..... 00000001-TSEO_
' ORIGINAL P/_O_ F,_!OFPOORQUALI_W.
; _¢ teepetst_/_es at A end B Ue oomputed fron the kaown tompetmt_¢| it 1 end 2.
_, All loom/tile and mate¢ial y_ltwoto_i Ire paloed to R(IAPth¢ouih the _amed eel-
mole 0AP. The tJdilnt l_tetehl_je taoto¢ betweo_ the two ¢utf¢oei i¢ 88J_Io4 to
i be thtt ot two infl_ite plltes 8_d iI found from the ozptetslou below
_r le n , lure •
• k"_
! !. + !
: ¢1 ¢2
_' A_ it6zatlon procedure li used to find the tempeeetutee at A tud B jiven thet{' tem_e_at_es it I end 2. T1 and T2 respeotlvely. The _o_duoto_s I_i and Y[2 ate
i, found from the ©o_duotlvlty an4 the TH1 end 1112. I_[$ is t _adi/tlon
thto_esses
L oond_ato¢ found teem the follo_Ini ezpeesslon:
' The eelazatios illotithm uled tO fi_d TA and TB I¢ e¢ _ollo_e
T1 • YKI • YK3nTAn+1• (I -_,) TAn + i_.....
+ YK3
)and
T£ ' YK2 + TAn • YK3"TBn+l . (! -_) TBn + ¢ ........ .
YK2 + YK3
i Co_'e¢Sen_e te round if tot
,1 TAn+_ . TAn TBn+t . TBn
' _A _ -- AND ........ TBn < _ .001
4
OFPO0_(_IJ_,_SJY
i R_utvale=t £hotm81 eosd_etivity is Sound ones TA And Tfl A_o solVAd by
YKI • YKg • YK3. XK_. -.
YK! . YK2 + YK| + YK3�YK2 .,YI_I
_ example ease is shown ta Pljute 4.16.
Plully the mass, IN_ end oapa_ltAnee, CAP1 And CAP2. ate oemputed.
4.2+ SUBIIOUT31_HSTAND
This subroutine eomputee the equivalent thermal eonduetsnoe, oapeeitanoe
and mass Of A sttuetu_e aonsiJtin8 of s standoff seotion and two oute_ In, floes.
Heat transfer As ass_ed to be by eonduetion and radiation thtouah the panel.
Consider the tuill laotian of the Z-standoff panel shown is l_ifu_e 4.17.
O
ORIR{I_L P/_'C:-t'._I:",'OF POORQUALkT_'
I ..__::_..__,._t__7._.?__.:E:,._:-:L__--:-.=._p-_:-_,_.::...........=
-..--_.:.: i.:_-.::.'7.-_'__4-.::g__ .................. ,..... __...... ,, k._..'+-+---'..._. " . ' -- ....... " ' ' ..... '" *
- ...... _,......._.... --'r.....-__-.---:-J.:--_--=-++.......i-..... i......-'1........ -'-'-__-_ .....:+...... _i-'- -' .... _......___.... _.... _.........----I" ,'-'=......... _'+_:" ,I' ...."..................._ ............-_'_" _...................'_ "_ --'_--'"] .....-----T-----773----'-I"I' _"_ _'-_'......... _--"'"-"
:. : -+.-::._.41.%'{g_.rZ+.:.",7}._..-:".g__ . I _':.:=+:.
- _=----4 - :; .0:_0 1 _---4-:_ ,-_---- 77, : _ .,, L, F +'- _
- Io-,, ....+ + -f7"_ -_:7: .... + C _.+-r: ++_"-: 4 + _oo __,+oo ":_+0o i+ooo' ' i+:,o "-, t_.l,e (*_.)
-i Ftg. 4.16 Radiation GepEffectlve The_el CoMuctance ., ,_
_:f
+.,:.-,, ::+..... -.............. _ 00000001-T81-05
[
:: OFPOOR QU_LIF¢i"
i, lJ H, TOt0pOtlt_WO| lit I Iftd 2 It_ TI I_d T2, ThoJo plil_6mltltJ Jlro |li_jnedI
_ their tliipo_ttvli 9lirllible nsmoli ta iub_outiu LO_:)vhiah is olillol immodiatelF
: ' bef0re 8TA_) is aslled. Tomperatute at 9 is un_ovn, but Siren tho tomperstmrosIq
lit 1 snd 2_ jeOnettio 8nd property dntli_ the tem_etstu_e st 9 alin be liolvod tot
by t_t_ition. The helit ttlinsfet peths ere oonduotton ffrom the upper t_d 1ovo_
li_fsoe8 throu6h esoh 6f the Itlindo_fl, linoe the node1 is llyEmet£t@ll tbOut S
mtdplliae_ aad ttdl|ttoa from _de 1 to 2, snd _rom I to t tO 2. The rlidisttve
enolosu_e tot tho u_per lower sutfs_es_ aad 8ts_dot_e _o_s£st8 of tout pla_es
shorn in FtSute 4.18.
i
_ N
I"1
i
Ftg. 4,18 ladtattoh EnclosureModelFOrZ-Standoff
l
The oootdt_stee of the pleue8 msltn8 up the enoloiu_e sre oomputed sud stored t_ ;
i th_ ttr(l,_) (J/td _(l,:ri ertliys _he_e I is the plase s_unbet s_d :r is 1 o_ 2 •
reptese_tl_8 the e_d _otets. The 8ttb_outifle$ _AC t_d SI[ZPI_ ate ulilled to de- ,
fine jeomlittt_ vte_ _,tozs snd lite_-t_te_,h_alje ttotot8 _J;l_lI._r). i
l_tom theJe _l(_to£1_ rsdtatto_ oo/tdtlltotli sto fotf_ld from the £ollogtn8 or-' i
!
_ Ktl - A_ _ 1_ + T ) (Tt + 1"11
c.. i!
i'
00000001-TSE06
The equivalent Mtwotk tot the total host teansfmt tram surface I to 2 iJ shown
in ltiSote ,t.1_.
C1A 1 C3A
C3B¢iB
S//_ Kg" "_%%N
C_C _ C4C
C2A 2 C4A
Ftg. 4.19 EquivalentNetworkFor Z-Standoff
Equiva.lent series conductors a_e formed, C1, (:2, C$ And CA which include a con-
tact conductance a_d the conductance of the plata And standoffs. Radietio_ con- i
clutters RI, IL_, R3, R4, And B_ complete the network. The elptcsstca to; the
equivalent conductor C1 is _ ;,
ClA. ClB • ClC .Cl - . ,
C1A. C1B+ ClB ' C1C+ CIA • C1C
SJ_tist expteesione era used tot C_o CS and C4. The tenpetet_re at 3 is found
by tellxatlon us/n8 the followln8 expression :l
:._., _ (TI (RI _" R2 '_' CI _' C3)' T2 (C' _ R3.. _" C4 _" R4) I _"
t - 11- t",,RI+ R2+ R3+ R4+ C1+ C2+ C3_ C4
i
. |
S8
00000001-TSE07
vhere is the input petsnotet TOL set to e default value of 00010
The total heat transfer pe_ unit of panel Is then found from
(T1- T2)• RS+ (T1- T3). (CZ, C4 �R4)Q • l m,
P
em the equivalent thermal oondu_tauoe i8 found f_c,u
• XK,- TI- T_
i An ezample Of the eqelvslent th.qtnal ¢ondUetanoe oalenletion 18 shown in Ftiute
i 4.20. _
-; The thernal oepa_itanoe is fou_d and =to_el t_ CAP1 snd CAP2. Total mass/
is found end sto_ed in _.
;" 4024 IgUBROITT]_RTENS "!
i
i Subroutine ZEI_S _om_utee the ©ape_itanoe aud mass of a materiel with t_- ,i'_ ftntte thermal oonduet_ee. CAP1 and CAP2 eeoh _ontal_ o_e half the total Shel-l
all oapaottanoe of the plate and _ ¢ontli_i the iitasll. The elutvtle_t thermal
oonduet&noe tl set to 10 s°, ghtle _eve_ used t_ _onputtu| temperatures, it ta
1 used us a flti to tudtoste pteieuoe of Infinitely oouduottu8 plate.
")
O0000001-TSE08
b
t til Sect£on J.O
+t I,+
'+_ 'i,t++,
++ +!! Duel requite d fez operation of ILU_ eom_s from mayoral sow©el, l}sts fori' W
i} the partiooltt ease, oontrol parameters, 8oonotty eta. oomel from the let•rio-
tire toput. Material properties ItS on e property file •nd identified with I
nat•rill number. The envitooment oomes from a file ore•ted by LANMIN whioh is
oompstible with the i_L_ input format. If the sttuotut•l ¢onfi|utation has
been modeled previously and saved on the structure file+, the user sen sttp the
sttuotutsl modalise questions dutinf_ the intetaottve input, a_d ©all in datl
from the ettuot_e file to desotibe the detail of the thamal proteotton system
beinll investtsated, A user may _ish to study the aft•eta of oh•using Oettttn
tr•jaeto_y parmmetats, in such ease he would of•ate sevet•l LANM/N input files. "
,i
lle <rould them tun the limITS coda •t each bodp pot/it bets8 ilivesttsated 8avtn8 1the sttuotuze by lsslanln| it • structure number •rid style| it On a 6truotu_e
file. The input tot the eubseque_t t_aJeotozy oases would be Ilteatly eimJ_lified
• thee the 8eometry and materials have been defined and stored on a structural
file. Several of these sttuott_es files may be crested, eaoh file clef thin8 the
thetsal protection system at selected body point locations on • partioulet vehi-
ale. With these data defies•rib one oan easily oompata fat thermal p:otaetion
8_stem8 candidate vehieles'. ',
+. tThe followinl disanssLon presents ezat0plee and deae_iptione of the input
• d_lta required fat Input in the I_T_ eels. Plait we have the date daftni_| the i
6_i_onment loll•feted and stated by LANML_h Next the utettal p_opotttee £tlo, 1
whioh p_elently oontstn8 some tteflt_ el|ht +mat•tills iliad oan be added to Ot i* I
edited iS the ulet ohooses_ II presented. Thirdly, eli example at the file Sen- I
leafed by _T_ tlhioh ssvel the the_al ptoteotloti Iystem ttruet_al and 8eome- }!i
+ _1 I1
'®2..++":_._:i:.-,-+++,:,,.+.--.-............. " :.,_._+: .:+..,--:.r:"..,., +,.'-:'"_',...',....+- --'--.':+,::----+--+_:+--.:.Z+.--":_'--'---'.'+'_:_::""":-:_..+'--_':':',_L.'_'_+"--+"_ _----._' --
O0000001-TSEIO
trio d_finitton s_d is called the structures file.
Two esanploa of the i_teraotlve input vhioh demonstrates u_o of all of the
optiafis and the seven struOtt_to typ_s n_I evailabld in BXITS ere presented, k
dcsotiptioti of the output fez thcJe oases is Siren In Boction VI.
S.l I,ANM OIEaATe,DENV OZ,,I+..NTIILB
The envtrolont for the body point under iuvosttsction td ionetatcd by the
LA_XN code and stored as e data file. The EXITS code _esdd this data fton Unit
7 in subroutine DATA2 and stores it in strays, A body point description and
body point nmbe_ is teed from this file by the followin8 statement
I 1_ (?, 700, EHD-,1000)D,ES(:MP,XBP
700 I_OILMAT(A72,IS)
until the body point specified in the interactive input is found. The environ-
7meat is then _ead iJunediately followin| this record by the _ead statement shown
below
Ill i II r [ I | i _ n i..
R2AD(7,701)TM.1 lie) ,IIC1 (IC), IIA1V1 lie), PtLP,S1 lie) I701 I_OlY,.MATI2X,IeO. 1,,_t_)X,ILI.0.3,,9.X, E10.S,$O't,_EIO.$).] 'I
An example of the LANMINinput file is shown in Table J.1. As nan be seen, ._
onAy the tame, 6nthtlpy based heat transfer ,oeffioient, adiabatic wall enthal-;t
py, and pressure As _eed. Data may be teed in eithe_ the EnJltsh nnita ot
, Metric units shown in Table 5.3. Trajectory point8 are _eed u_tll a nejstiee
tame point iS encountered.
62
00000001-TSE11
I+,1,, a I= I_ G tl II _ +" _ ,,,++,,,J,,.+,+,J_
( e e • o o e • • e • e e e • e o e e e • ee e •
_ ,J • • _ • • e _ e • • I, eeo • ,. gl,_, , _t.9 e ole e e • • e e _e e e = e _ • I o e • e e o o =_ ,
"'' _ 0 • t411 • • O0 _ 0 • • e • O • • • 6 • e • • •
a
,_ I • • • • • • • • • • 6 I • 0 • 6 0 v_ 0 • • • 4_
-', l=+=4 _III_nl_=qal 4U__ al --,=al+_all_I lq._+I+
_::1_,,, ' I.,% ,l+eeee # e4* e,_4 _ • 4lee 4 • • 4+ • 4 •
_i! .,_,.I,,,I,,_._-_ ,,,_=,_==4d,l=,__,,O.,'i"4 =II_C_II_.It,_O=11a,,,,0
e • • @ • • o • • • • 41 • • • • • o o e _ • • •
_°_, =I
II I I_ | $ l $IP I I I I I I I t t i 8 I It|
e • • • • • • • • • • • • • • • • • • • • • • •
. = _= _,.., _ ,+o, <,o,
im
• ,_,+ O; • • • • • • • • • • • 41_I _ "
i+_++_ =..+.+....--++++.+..•.++.-+.,......-+++++..+--_.. ...++++._+.., .++° .+• .=..,...._ ++.+., ,++.+ ++,+,m++,+ +_+.+,++ +_
++
+
+++, N+ l_ _-s l,= _,_ + _J + +"l +l'_ '_ l,,+ m ".,,_,.,,,.,, +~_,'=_ ? + +l_l..s •
.! "+,
ii
•, _ , . ._ +. ,. _,,-.;+. .., _,_*. • + -, 5=-____=,+-_.++_-+,_o,*+--_+-,ji+=-,-+_+2+} _, , ,: .......... _ ......... _+,_& +,, + ,_.+m+_._, Z__+_- - -., - -----_- + ++ • _ t.'r+r+_+*+-+.,,+.'++* +_-+' ' +.... '............................ I
_7_.._,'*,',',';::._u++:;.:.++.,+.++++,::_+:;,_,:++=,....
O0000001-TSE]2
OF POoR QUALi'I_
4
'i
,P MATERIALLI_T
isis J
1, Aluminum 707J-T6_. Co_kS, LP_I CoatiaS4. IIRSI ColtiaiS. !.I-900 (Blvariato)6. nSI Coatin87. FRSI Nomez Pelt (Blva_late)8. SIP RTV S60
:: Titanim1 Costed Columbium11, Copper12. Be_yl li_15. Zl_eonia14. MolybdenumlS. _LI_E4116. Micro Quxttf Pelt Iutulation17. ]_ICON_I,61718. _CClS}. Q-_elt 108 (BiVatlate)20. Tanttlum21. _Betee22. I_CO_L X 7SO25. L 605 Cobalt24. BAIg_II3S252S. M_-[ 130126. LI 2200 (Bivatiate) :,27. NylonPhenolio (ABLATOR)28. B-Stase Cork (ABLATOR)29. IIISA-1 (ABLATOR)
e H Ii
t
TJblo S.3 Material Idet_tifiet Hueibers " ;I
|
t
• ),
;t 1
i
00000001-TSE14
!l
0,0 17S., I0000, _,
0,0 ,170 ' '310,0 .t70 OF POORQUALi_-'t+__,0 .1_660,0 ,;it0
|_,0 ,170
6 AL,70?F.T6COl_¢tlVX_ +0.0 1._-_
t60.0 i.400(-2A60.O LO0_-I760.0 2,80(X-286O,O 2,700H
2 N..7075'.T6I_ZSSIVITY0.0 .1;I
tO000. .122 _ ¢0_ OENSXTY 8_0.0
0.0 tO.10000, lO.
2 COItK SPECIFICIF.AT0,0 ,Oq
10000. .042 COR_ _CTIVITY
• 0.0 6,90E-6lO0oO. 6.9_.-6
O.O .B
'_ 3 2 U_I (:OAT0_I_ t660.0: 0.0 i04.0 :
10000. 104.09 LJ19!COATgveCtFtCHEAT0.0 .l_
_10.0 ._2JO.O .|7460.0 .19 I
780.0 .lit960.0 .;NO '!
14/,0.0 .1952460.0 ._4S ._0.0 ._0 i
0,0 i.l_iE-4 i_10,0 I.IOIE-4 " ;
4_.0 1.2_tE4 ; 't{ 710.0 |,_1[-4 i
l_sO.o 1.9S;:-4 f;_0.(; |.At_-4
Table 5.4 The_oph_,stcal Hatert81 Properties Ftle + I;, 66 t
!I
00000001-TSFO"I
| 1.1_61¢0_'1+ _I_IVIT¥ .... + t
0,0 ,60 OI+_I6;_N_._P,.,_._l+.,:.._._+,.,:tt0000, ,80 OF POORQUALI"i"Y'
4 t 111131COAl01_181_ 2760,00.0 |04,0
I0000. I(M.0, 9 14q_l¢_f Bs'EClFICHEJqT
• 0,0 ,(__I0.0 .|5:,0,0 474+0.0 .l_
. ' 710.0 ,XlIS+ib0.0 .t401460.0 ,B__D0.0 .24g:i_0.0 ._'90
+ 141mlCOdTCOI<IXICTIVtt_0.0 l,lgl[-4
_110.0 1,t81[-,+• 210,0 I,_tSOE-4,+ _0.0 1.2mS'4'_' ?10,0 l.tiE4.. 9+,0,0 1.6/E..4
:+-', 14+o.0 l,q_E4_.j,
+;+'++ _s0.0 2,4_E-4',,_.+4 24+0.0 3.27fE-4++ 2 14qt_lC_T _ImIVITY
0,0 .m:_ tO000. ,1_,=+, S ;1 LX400 I_ItV 27+0.0
0.0 _.0+ tO000. '_.0
_,_ 10 LI-_O IPECIFICHEAT*+_.+ 0.0 .070
210.0 .I05;_,. 4+0.0 .i_O_, 710.0 .;+sO
.:. i 14_,0 ._18 ,.:+=, 1960,0 ,200::' + _i0.0 , .:103++ m.o .m+,+
13++,
i':{i: _ i _+
I,
+ _;
+_. Table 5.4 (Coint<nued) 't
"+¢,+_ ........ .+ .+..+.:..++.:.._...,++_...:+/.t+i:+.+++_+:.++:++_,_++_._. _,_,.,,m,.a._+ +_: : ++.+.+_.,_. + + +_ _,'z.•.,,,+ • ++.:._.,,+.+_+#_.+;.++._++.,++
00000001-TSF02
-7,0 _.0 ,Ui ._12 3,116. |t,t6 31|,6 |116,0 OF POOR QUALI'I_0,0 f,OOE-6 t,g0K-6 1._4_-6 LF_'6 LSSE-6 |,8:_ 3,08_-6
46_,0 _,7_,.6 _,_..6 LqSS-6:J,mS,-64,_K_-69,SKE-6S,'_-6, 'J60,G t,_N£-6 _t,_88_-63,_E-6 4,6ttE-6 9,694£..66,6tt£-6 6,944£-6
660,0 2,6_8E"6|,6_E-6 _,O:_E-69,:JNE..66,666£-67,6:18£-6e,05K-6 ,17_,0 |,8_o6 _,0_-6 4,$0K-6 6,fIR-& 7,6_8E..68,944_-6 _,06tE-60_0,0 :J,0_E-6 $,0_-6 4,7_..6 6,9448-6 ih777_..6t.0F/I_.._1,061E-_
,_ 1060.0 _,61tE..6:J,6ilE..69o7_.-6 0,_..6 i.t_-9 t,_Jtg£..9h2NHt260.0 4.I66E-6 4.t661_-66.9441[-6i,0_9_-9 I._E-9 t.6OE-tJ t,7_-_1460.0 4.061E-64,061E..6O,_E..6 i.i_JE-_ 1.7NE-_ |,t_',_-_ _l,l_lt-_
_t i_qQl_D'ESE_IS_IVITY0,0 t,O
t0000. 1.00 | OIP4TV960_I_ 960.0
0.O N.010000. 80.0
9 OIP..FI_960EP_,IFI_IF.AT0.0 .F_
:160.0 ,;tTO4tO.O ._0
_.0 ._0_660.0 .:lO0060.0 .:_0
' 1000.0 .S40? _1F.tllt,560COI_X_TIVIT_0.0 _.47_-_5
46O.O 6.80K.4
06O,O 4._E-'_q,0.0 4.0_.-_
0,0 t.010000. +.0
9 | TIT_IUIq DEIq_IT'Y I;I_0,,00.0 Slt,O
lO000. _l_,0
t
Table 5.4 (Cohttnued) '+ '
+., _',,.+,,,,_+..... +. .+*....... : ...... - ++:-,.,_+,_,,; ./+.:+.__+++._+.,++++_+_.;+t_+,..+._._'.--.'+.+;:.++:_"+..:..--._'*'+.... +
O0000001-TBF04
6 "tlTHill_lI_ClFIClf:kT0,0 ,0_
I_0,0 ,0964_0.0 .IU **
e_.o .t_ o_IQ;N,_LPAQfriers_,o .J6o OFPOOR(;"JAUTYt0000. ._
D TIYMI_ CO_JCYIVIYY0.0 t.20oe-:_
_0.0 t,900_-:l "_.0 t.mmt:-3t_.O 2,_o_-_10000, _.80_-_
0,0 .t|tO000. .t2
l0 _ ¢I_,CQI.HI)NITY _960.00.0 _,0
10000. _LO6 CTI).COLU_SPECIFICHEkT0.0 .Ogq
4_.0 .0'__,0.0 .0_!
_" 1060.0 .06514_.0 .069
.. 10000. .069::_ 6 CT_,COLL_CONDUCTIVITY_- 0.0 4.40E-3._ 930.0 4.40E-_• _0.0 6.10E-3
1460.0 _._E-3 +_:_.0 8.00£-3100_0. O.OOE-:I ,
4 C_.COLL__I_IVITY_ 0.0 .tq
_i60.0 .t94060.0 ._4toooo. ._4 _:
_ It _ COel_ I)eN_II'V 1560.0•; 0.0 _15_.0., iO000. 5_.0
0.0 .000!60.0 .0400
460.0 ,ON+ 9_.0 .SO0 +
"++ il_,O.O .itO +:,++ 1_0.0 .1_ + ;
_160.0 .Ira ++: tO000. .t30 "
,+
:, #.
Tsble fL4 (COt_ttnued) , ,_ t
:_ 70 '
00000001-TSF05
e col_l_ C(M_TIVZW0,0 ,070 ORIG|P':a'_._L,'._;*, :+..,,+-'++",.:.!"
b0,0 .0/0 OF POORQUALITY460,0 ,0_W.O .06t14_0.o .0Ztg+O,O ,Otl_
' D4+O.0 .0_1iO000. .091 ,
fl COPPER_I_][VlYY0.0 ._
, iO000. .7|
O.O |ib.OlO0oO. 116.0
tO ItYI.LIUI4_I[CIFICt4P.kT0.0 .000
1_.0 .001360_0 ,2O4_0.0 .31_0.0 ,_JW.0 .bS1_60.0 ,75_'460.0 .IPifl_.O ,t1+
9 II_YI.LIWCONIXRTIVITYo.0 _.tm[-:)
w_.o _._£-_1460.0 19.001t-2l_&.O |4.00(-2
_60.0 tLOOE-:3II_YI.LI_ _IIIgIVlTY
0.0 .l_1o000. .1_ i
t_l | IIR00NIA IJ!NSIll 3'3(A,00.0 _49.4
10000. _4_.46 Zl_Ik _I_CIFIC_qY0.0 .119
,1+0.0 ,ItS /ve,o.o .l_14_o.o .1411
• _,0.0 .i, ++:l Ztlt(:OldlkCOM_TI+IP40.0 _.2_E"4 ':
4+0.0 _._4 "+, 9+0.0 |.9_e-4 '+
1410.0 L7_1_-4_J_).O 2.4_£'4 ':_0,0 S.6tS-4 :+ i
Table 5.4 (Conl:tnued) , +
i. i
1
i+:_,i+,.,-;,_2..... _ .+_:.u+......................................
0000000I-TBF06
+'-)+: 0.0 ._0
t0O00, ._0t4 2 IO._D_'UONII_ _+0.0 +
+ 0,0 +LA0.0 ORIGINALPAG_EI_+i0O00. M0.0 OF POORQUALITYm_,mmmcmc_T
i o.o .o..0 .0mr
_.0 .0+0
_,0 .too49+0.0 .It0
+, 7_,0 .1t07 _Xq_ ¢Ol_CTtVt_0.0 ,02_
mm.o .0_44m.o ,mat+
14+0.0 .o'loo
;+ 49+0,0 ,Ot+O_. 74,t,0:0 .0119
:! I'IOL_ql)EUfZI_;IVII'Y0.0 .20
100O0. ,10+L+ t_ ;! IIBE41 _qgI_ 2060.0+ 0.o 51_,0
100+0. 5ID.05 I_1 41 _ECIFIC1£4T0.0 .0_9
ii +o +460.0 .0_
'+° ++S _ 41 COND_TIVITY0.0 .0014
_,0 .®i4
I!i q+0.0 .00_t4+0.0 .00_maa.o .om2
_ 0.0 ._0+++ I0000. ._1:
++ 0.0 :LS'L
++ tO000. 2._I+: q l+t_0mitt_CIFICHO,T0.o .I_ +
s3_.0 .tl_?M),0 ._172
++ mo,o .ram
i_0,0 ._70 +
ml+O.O ._0
_'_' tetble 5.4 (Conttnued)7Z
i_++++_+-•+ O000000i-TSFO_
lp I'II(:A0ill'r| _I_IXICTIVI'I'Y0,0 7,"_It-6
_1_,0 7,_1£-6 ORIGINALPAG_15r760,0 7,+_1[-6 OF POORQUALITY_.0 q,0E-6W,0 +,_lmE-6t_,O l,+St[-+
, l_.0 t,77Je.,+1460,0 l,_l[,,_ '+
2 I+I01t0_Z _iBIVITY0,0 .0S
* t0000, .D19 _1 ll_Olg..617_ItV _q60,0
0,0 _1.86lg000, _1.86
|| I_01L 619_I_'IF[CIf,AT0.0 .I00
m.o ,tooM,O,0 .101il_.0 .If!i060.0 .117141+0.0 .t+ile+0.0 .137lW,0 ,tA4;10ltl0.0 .leo_60+0 .t57__0,0. .l_tO000, .t_
1| _ 617CIN_TIVlTY0.0 :!,17_,.9.
S.'._,0 _e.lgE-2 "660,0 II.3'3[_.2860.0 II,61_-_110+,0_,0;I.6qlt-_lIW.0 2,44_-gltWJ0.O2.TP/E-:)tltl_.o 4.00N-:I_0.0 4.mmlt-_ml_o.o 4._lm-tl
.0 4.1_1E-2tO000. 4._J
;t lllC01l.617I+II_IA/I"I'Y ,i0.0 .ltl
1(3000, ,ilt8 _ _C IlmllY :)000,0
0,0 102.710000. tO_,7
.,9
:+ i
f
__+ Table 5.4 (Continued) +_, t
+++ 73 i t
+,: i
_::._++-_---"r++": :..... "+".:++.:+_++'+:.--+-,-+:_.... ' -.._'+"--', ..... : +_+"',':'_-._+.-"++++++"-+++_-_,-+-'-+"-':.--'-.'++.':+'-_--"._'---._--+,:'-_++--"_+--+_...-'--++-_-+-+'-"..... ,.--"_.'+,'-+--,",'--+.'---_-?_;Zi*;-_+'_227
0000000I-TBFOB
! Si I_C I_ClFICHE_T0,0 .OM
160,0 ,OeO
4_.0 ,170 OF POO_QUALIFY9#0.0 ._4m
19_,0 ,_M
+ _60.0 ,:_0+ :_,O.O .4_0•. 10000, ,420ii. 1! ice ¢01_TIVXTY
0.0 l,OtE..4_i 160,0 1,0tE-4
,0 It,rely,E-4
860,0 O,lO_-4: 1060,0 O,TqPMi-4/,. 1460,0 9,2_-4
2t60,0 9,7m_'-4_+ ;Iw,o.0 9,7_[.4;; :DK).0 9,49|E-4+, 10000. 9,491[-4i" 0 IKC D4lgSlVITY0.0 .O
I Im_O.O ,e+++ 17+0.0 ,M
l_+bO.O ,i_ ++:I_.0 ,08
.0 .0410000. .O4
19 _ O-I:B.T]08IX_ISlI"/ 1160.0
0.0 J.Oi000o. 6.0
+i 10 e-F'B.'r10e_PliCIFI¢tf.4t0,0 ,®6+0.0 .;tO
qM.O ._1t60.0 ._14+0.0 ,_7IM0.0 ._1136O.0 ,_;1060,0 .:1010000. ._0
+,;, ++
+,
" '+ If
+ Table S,4 (COhtt,ued) I
t
(
00000001-TS_09
®:r _ 10 O'4_Tt08 _t)q_TI¥ITY
-2,0 ill,1_ itll6,O
: ibO,O _I,7M-66,0111-6 ,: 7_,0 4,60_,.46,_-6 OF.POOR(_U/_LiF'i'
: 960,0 6,?dK..69,0E..6lj60,6 9,P_01_,"61,1_"9
' (W,O tJ0t:-ll I,S?_I1660,0 1,4_M-I1,8511l-It ,,IW,O I,TIZ-I l, tlLq[-11li0_,0 1,71Z"9 J,40_}10O00, I.IIM-9 |,40_
6 I-ti1,1tM tTII_IViTY0,0 ,Be
660,0 .8111160,0 ,70IW.0 .69lMO,0 ,_l(,,k)00, .60
20 _ Tlei_T_l.UNOl_ITT 4460.0r o.o l_.e|0000. 10_,8
6 T_UN _IiClFI¢14_t0.0 .0_
i _+0.0 .08_++ 460,0 ,(Kit, 1460,0 .0_
_ 2460,0 ,041.0+
• 10000. .0410, t0 TMtTALUIqCIIII_TIVI_Y
0.0 8.1mlt-_mo.o e.7_-_
_ tlXlO.O t.02_-|1440.0 t.06_-_l
2mlO.o iJl01t-!.0 l._It-|
2tO0.0 t.+_-_.0 t.;_-_
100m. i.m_-_l= TMIT_ _I_SIVITY
0.0 ._10000. ,_
_tl _ _ I_IW 44+O.0O.O _._104,4
t00o0, t104,4_t'. " II I_NIITfM _II!'I_ I_AI'
0.0 ,_
, 7460.0 ,O47O10o00. .0¢_0
ii::. Table S.4 (Contlnued)
7S
_+..;..m_::+-+: .+,.- + "' . ..... _,'_+.::'. ' ----"+-;?'+.--:_T'"" ":::'_'"_'_'_'_,.-+._-_:+:+_+_:_:_.._%_:_+_-_.-'_-_-_:_::-_:'_:P_-_'_,_-+`_=-+:_T_+_*_*_ - -.'_"e.-"-'=_ +--'z-E-L'++-_L.--_+_. +_++.+_ ..+...-._+..+_...._...__.,_._
O0000001-TSF10
I 7 'IXlII_IDICOIiW_TIVlTV
i_,0 t,l_-: OP,I+ _2460,0 |,IM-_ OF pOOR QUAL|'T_4_I0,0 9,10l-_i4_0,0 +,Hli-ilIOMO. V,l_-2 , ,,
| _ ImZltlVlTV0,0 ,066
lmO0. .OWlIi ll I1t(:0,1.1(7t0KItlITY lll_.O
0.0 t_l.ltO000, NI.2
6 II_OM,,.XTIO+lllll IFICIf,AT0,0 ,OM
160,0 ,OgO460.0 .0_t
1460.0 .1_14_.0 .t7010000, +iYO
6 ltI_M.ItPJOCOM_TIVITY+0.0 l.q;QOlt-_
tS30.O IJPOO(-$9aO.O 2.600E-3146o,0 _.400E-_
' _0.0 4,1100£-_lOOOO,4.900f':1
4 IML"(_I7_O_IIB|VITY0.0 ._0
1010.0 .60 _•
IOOM. .71-_. I1 I! 1.601t¢OIt.tIiMtIT_ lllAO,O
O.O _.0tO000, _,0
4 LAO_COLTt_¢t_'I¢H[_To.0 ,0+6_
: 16O.O .H__M).O ,1+401o000. .1640
6 LM_COlT¢III_TIVITY0.0 l.lOt-S
120.0 1._-39+o.0 1.301t-3I_lo.O 3.1M-314+0.0 4,91f-3
,. 10_0. 4.ml-2i L_+ lIT t_1f_I¥1'1_
+ 0.0 .Ii0°i IO000. .llOI; m t mmmII m)lxn _.o +,+++ 0,0 S70.O ,;',+
..../ i0000. 170.0 +++.+
....+ Table 5.4 (Comtlnue+)
7+
""__ +....... 00000001-TSF 11
I
+ SI I'MYI6n IPEClPICII_T O_'I_IP!/"+.'.`+',+..... _+':+'' 0.0 .I+ OP P OO_I-+(qLIhLI+I'Y+ I0000. +ill
0 I'_IM_I+ CBIYUCI'IVITY' o.0 1,1++ W,0 i,H+
1460,0 +,TM'_' _,0,0 +,If+'|
10M0, +,+m.+sl l,lm[+n mlmlVl'l'V0.0 ,N
,, I0000. .N| Plth 1301UMIIW I_M),00,0 U,0
10000. e0.0+ l film 1301_¢IIPICI.EKr
0_,0 ,tillIOM0, ,+t_l
+ IIIH tMi ClMI_'IIVI'I'f0,0 E.6E-6
_;, Ira.0 4,g,',','E,.,6W.0 4._IE,.6
t060.0 S.tl3tl['-l_+
-'+" 1_0.0 It.7'17t+
",' + I0000, 6,210[,.+
+. 2 llll+"It1301BI|_tWITY0,0 .+'J++"' 100M, ,q++_+ _ | LI'ZM0 D_ISI'I'Y f_Y+O,O
o.o m,.o+ 10000. _.0
LI-gZ)O 8P_lIrlC tiler0.0 .IS
" 100<30, .30+ fil Ll-liPO0 COI_CTI_IPY_. -6.0 0,0 .|1 |.1| _!t.t6 _111.6 _1116.
0.0 LIE-,+ :I.E.-+ 4.4M-6 7._.-6 tl,2M..6 II.OM-+_110,0 3.MIt-_ 3.ME,,+ 4.44E-6 7._-60.3M_ LOM..+
'+ _t0,0 6oMit..++,M_..6O,MIt-6 l,ll[o$ l,t)_-5 t,Nl_-5I|I0.0 O,OM-60.0M",6 1.0E,._ l._It-_ I.Y7E-_ |.ll&'_-_ i
+-,, 14_0.0+ +,_.-6 _),_ i.lVE-tl I,IM:-_ _l.l_-tl _I.4_-S_-_ 1710,0 I.IM"_ I.IM"-_ I._IW-_ l.il+l[_ |,_IM-_ |.ME-5--,X+
iVM).0 I._-.'5 l.Mlt+ 1.63_.,_ l._It-tl |,#I,[-_I :I,5M,-'5. + _II0.0 I,i_E-$ I,,W:-6 I,,+Wt-S_._E-5 3.4tlt-S _J.l_-6
_ _ _,60.0 I._E_5 i._E+5 +I.:IM..'5ll.'/'/t.-5 _,'+_-tl 4.4411_-S +
+, MP_.0 |,_E+ |.t_+ $.IM-_ 2.'/M.+-5 e_.l_-_ S,l_+,,++ _tI_0,0 :I.ZE-_ 3,_E-tl 2.7_-5 4._-+ 6.00[-5 6,_-tt_ _ 3_,0 3._il[-ti 3./,lt:.+_4._1_-_1S._:-S 6,Mt-S 1.77t-S
++
+++++
. i+
+++,+ Table 5.4 (Continued)
; :,' 77 ,
"'+ ........ ++ ,+.._._++-. .+-.... .-+._r.,,._+.'_+__--,_...-_-.__..._.--+-++-+ +.2_2__++_ ++_-.+:+,+_2__- 2_+'i+2_-++;+'_-+_+,_+
OOOOOOO'I-TBF'I2
2 L|"_O0 _I_I91TY0,0 .90
100006 ._ 117 i _ _ ImlTV bllO,O
I0000. 94,0 OF POORQUALITYl _ P_ ii_ClFICXEM' i0,0 ,lO
bO,O ,lll_t0,0 .H "iil_,O ,Itll10000, ,1_ ,
9 Iffl.CilPXDI_INDUC'IIVI'I'V0,0 |,_-!
_0,0 I,til.ll66O,O I.V*[-Siio,o iI,Ki,.il
i0000, l,MEabI! Ii'4LOIIIsHBIEItIttlIII/IYY0.0 ,8_
tO000, ,_S IFUJNm t/ILl,. TI_o,a S670_0
If,t6 _70,0t11.6 SM0.0tit6. 6210,0
_. 11160,0 61110,0, 27 5 _ Pig IfJT-_J_TION
f 0.0 It000,0 :' il.ll llO00.O
i' ili.ll ilO0.Olilt,, ilOIl,O
llll0, _0O,0m l H_.CMIqMt_II'V iil0.O
o,0 31.0lO000. :ti,
1 t-_O_Cl I[(;ttrlC14/. !0.0 ,4ti , t
ti IOOiiO. .li *•4 I-IIIt.COItKCllll_&ilVlii " "0.0 1,11E4 :MO.O i.ii 1.-913t0.0 3._1l[..itt0000.o _,Z3[.-_
I! |-ll'O,_ltlllllllllill_l '0.0 .8.ooo. .e i19 il |.-m'll,COllt_.TI_P
lI
I
l
iTable 5.4 (Conttnu(=d) ._
I
!:'+_"+"_........._'" - ".................... O0000001-TSF13
there
! ED - Material Identifier Numbeg
71) = N_bot of entrto| In Table (down the pass)
TI_S_ - Metotial NMo
_S_2 - Propott7 (Donstty, spoeifie hoit_ eta,)
TMPM_ - Maximumallowable temperature for material.
(Read on density header said)
The next SD reseeds ate theft read to load the property into arrays ustu8 the
follogin| read s(etenent sad format.
i li • it l fl
_(8,7o2) (kPJ)(n),n-l,8)
702 I_01LMAT($X.8_.10.0).m ii i
_or t monovariate table, the independent _ariable is ARD(1) sad the de_eedent
variable ie AgJ)(2). l_ot e bivariite table, AILD(1) is the nelative of tlte -.mubet
of pressure entries, 8aim8 a=rose the page. The ptees_e value| ate eto_ed in
A_)(2) th:OnSh A][1D(8).,
The next 3D te_o_ds ,re read by the same read statement. AIID(1) yell t_en ,
be the temperature vhile ARD(2) thtoush AJtD(8) ate the properties
i. e, oonduotlvlty ot epeolfle heat. "
All JptOperty _ables mist be attinsed in s paetienlae order. The first pro-b, '
petty must be density followed by speolfi© heat, eondUoti_Ity and emlssl_Ity,
Fat a ablltot-sublimer material, sublimation tenpe:at_re, and heat of ablation ','_..i
ire added ae the tilth and sixth pto/_ertie8. To tits t material Ms beige in :b-
later 8_bliner, the celestial ldentiftoation number is i_luded on the header
8O
00000001-TSG01
OJrd tot the eubl_atfon to_r#t_o f_lo, Units tot tl_o VJfious ptopertiel
eto Siren L_ Tiblo S,S and ire S_wJJ_§ |lfJe_ rejardl_ja Of the OSitS SOt Qsod An
. the input.
II I+ i _ __ I iiIt
lqO_RTY UNITsL_ n i • i •
D_I_ LBM./PT.j
#I_CX_XCII_T 9TU/LSM.-R!_i _ CONDUCTlYITY BTU/Ft-BBC- R
_lSsI_rf_ Dx_sxom.sss
' ' el
_' T_LE E;.f; Matertal Property Units
_.. S._ S_0CTU_S lqLR
_, The I_tTS pto_mm will e:eate a file which eaves the eeon_t:ic and material
g., defitiition Of the the£_al J_tOteetton system _ein8 analyzed. The use_ asstsns '
_ : this definition a 8ttu_t_re number which is used to identity the 8ttuetu_te for '!_.. late_ use. BY doin8 thil, the hie: oan _eeval_te the cue the:thai ptoteetio_
i+_:" Jyltem _def di_fefent envifoument conditions wi_h a _.uoh seduced Interactive
input. The t_me Of the ett_etu_e file is input du_in$ the i_te:aotive pottio_
!_J_ of the input. _t:netute8 a_o added to the tile st the bottom ot below any
_;.._•, Structure _hieh already etiat i_ the file, if any ot the ezistiu| str_etute8
i have the lt_uoture numbe_ th_ user i_ usin| to identity the new str_ct_te_ a
+ message _ill ah_ea_ du_i_t| the inke:a©tive inpot aski_| fo_ t new identifieation
;,,, n_be_. Therefore, eaeh 8tzuetu:e in the tile will have a distinot structure+
i * ide_tifioJtion number.
+li"., An etl_j_|e of I mt:uetu:e definition is &even tn Table $._ to= the deson_- +
• _" ,_
_,, 8! +: I '
+++ +++.-I.+_.... i i .......:........................... --.-.....+++.............+:++--+---.--=_-+-+--.............. -_--_-+--_
++,+++....................... ++++ 00000001-TSG02
,TJORIGINALP_G_;_OF POORQLIAI,,ITY
|,4-/_XA_I,E _SB ONE(AflhA_OR,_IATION OAP, THXNBt_XN,_TANDOI_)
00000001-TSG04
As shogn l= FiBwe S,lm s= ablltot 1,0 inoh thiok is p_aoed on top of a
_olmbium sheet .12_ i_ohes in thiskneee. Next we hs_e an al_lnua plate .4
tnoheJ thieJ: plaoed ovot an XnooMI 611 lheet .14 i_ohes thiok. An sl_t=_
Z-standoff mttaotu_e sopa_etee the Xnoonel d17 sheet from s ool_bium bsekfaoo
sheet o18 tnaheJ _hiok. We see that the .4 inoh aluminum plate is divided at a
depth of ,1 inohes from the top e_faoe. This to requi_ed to define the radia-
tion lip model sines | lower eu_faeo plate ts needed. The thermal tasiitanee in
the .1 inch slminun is inoluded in the radiation Sap node! and does not effect
the time step. The ae=othetsody_am_e envl:o_ument is looated on the tile
._ M_IY_R,DAT and identified by body point n_bet $. The st_uetute was saved on
the ettuotu_e file STRUCI_ItE.I_ILwhioh is shown in Table 5,6. Also incltlded in
:._- this example is the input required to _etun this ease uein| the structural de-
_-.. finition saved on _TRUCI1_E._IL, The intetaOtive inl_ut i8 shown in Table _,7.
•"- l_ot the ease where this _xample is _etun usin8 the saved struott_e, the interae-
tire input ie 8ho_ in Table _.8.'i
i:
OF POOR QUP,LI"_f :;!=,i
=
8
1
I
!
qt
:." 84 I
i.2i,.
,_:_ .... :_ ..... _ _;__=, _;i_: :. __=a#._J _41_i_; _ ' _r_'_ _f_:_;_°_;!__ ........._/'_._ _°_........_-_ _, _:;_-_.
00000001-TSG05
5,5 RXAP4__lii_ ONRP_UN _O_I S_UCrI_I_S_ZLR
Beta We hays roron the ease previou_ly doJotibod asinB the data stozed Qa
the ettQotured file whioh daflnes the thermal protest/on symtem, Tibia 5.0
Shots the !np_t fo_ this ease. As ea_ be soS:, the lSLtotlo(i_6 input l_Ze bee_6
8:ostly simplified. The dosettl_tion of lines one to thittosn has been previous-
IT _lve_,. At lizte 14, (he response is Y (yes) sines we have already dosettbed
the Jttuotu_e. Line 15 asks fat the atruotu_o identifier Au_be_ whtols was as-
eiSned p_evtously. If the an_wo_ at line 1_ 18 Y (yes) theft oonttol II returned
tO line 7, if N (no) we liars oompleted the inte_sotive input end I_XIT_8sea into
exeoution.
90
O0000001-TSG11
( 4�ORI_NAL,PAQEI_
OF POORQUALITYS.6 BXAMPt,lZ(_I_Ri_0 (St,_, St._, I]O_iOo_ _ CO_tleAZ"61_)
il i_li elillll iht l_t_t Iollliomenti for t_t lomliliil l_oO ltilloi_toJfi
(Silb_ Ilotlei¢_ilt, Coilliiattd) tie del_onitiltod, Aiilli, tlltl oill ts not
lolit!Intitlll of I thoill I protlOllOIl s¥itiil but iolVgl io tIIQmilIIt llio illput ,,
ii /elultomotitl §or tllO iilliliini thleo iI¢_tlie|o l_ie oonilllitilloa lot t_ii el-,,<_" ullo Ollt IS Sb_n in lililte S.|,
F4g, 5.2 Conftgurattohfor Test CaseNumberT_
t
g2
ii
:_':_'................... 00000001-TSG13
+'
Am nh0!_n in Ptjot_ _,3 m LI-W0O ineuiatlo_ ,_ IAoh thi0k with m ,I0 Inah
oo+'f,lnll of iillB! oomtlmll mml:+,IPia,1,le be+kid 'o_. bp m h_mmyOolab sttuatofs .7|I
ifl,#b#il f,bLok slid II _loes"O,il#ted .t_eo,otato. Dt{t#fOllt nteteP,illJ el_e tilled IB ,the ,,
h{iaolcomb and ootfndgtcd |iy++a +o lilUlttete their input. _Pho lt+Othe_modpnlln-I
lo eovitonment is detiuod on the file M_ZVI_A.I}ATa_d identified 5F t}odF point
: |, _ile itfuottlte +re| Jived o11 the st+t_ot,o file 9TRUL'FUIt_.I+I3+lad Is tltotQdodt
in she eumple 6hovn in Table t.6. The lstotaoeivo input foe thll o11o ll
proeontl}d tu Tlble t,l}.
tiou telnpe+ttwo and holt of lblttlon are lli_ten,
O+otion C presents the LANMIN 8eel+steal e.vito_neot _ot, the body poi+t
spo0L+tod, Values iPol film oOeftlete_t, reoo17+r3P 6_thll+y, l.(i pleSl+le lee
+ So+atom D +hoes the _ode po+iti+n+ and nabs+tel +el+once, s_,tuet+te type+
,: marsala! a_d oonduotot number of the notvork. ]tnl+lll temperature+ sink tem-
perature and the view facto: to the li_k t8 ellS shown.
Section E depicts e Iltaphio representation of the model inelndtn8 the nodet
+; epaotn8 end materials. A double horizontal t_ashed line separates the Itzuetute
.:.+ typos. Node looation8 are +el_reaented by an +'O_* o_ the left hand side. ,
_. Section F presents the temperature end load histories of the structure be-
_?: Sluut_8 at Initial ttme. At es_h output, the total number off time steps _nd the
"'! value of the last time step taken ate shown. Nezt+ the tnteatate_ heat loads
+i'.+ and heat ratll ate passe,ted 11o_| wtth the uet heat t_t_ arid o_t of the sttuo- .t
:+st' t_e. g_Plee recession l_td +eoesslon +Item Ate lhown, 2_e tempe+atu_ee at eaah :++++
+_} _bde withtA the let.etude lad the sxode looatlon, ]tJL- 0o0 belnll the llLttltl s_-
faOe. ll liven.
+' Seotion G is presented eaoh time a node is d_opped +ram the network Is the +'
++- e_faoe _ecedee. _Phe Jane t_o_natto_x 18 oontatned he_a a8 in Seetto_ E.
+- _e_tton It lives the utt nits of the _'_ and a _,eSeall4_ it I temperature has
i at_eeded a material limit Is epeettted t_ the matert_l property tlblee.+i
; + O_tp_t tot the 8eoond etlnple is presented i+ Table _.2. JLdesotiption ot +"i
]i . thil o11o il not neoelsa_ date to its stmllaritp to the first ennpXt. +i'
++--
I
'[ • ¶
°i :,:' e
"3
,+
__ + _ = .+ , . • .........
.......... 00000002-TSA07
O.OOdO£_O0,7000_4!_ 0,_i:'_ 0,?0001t+'04
:,,, Table 6.1 Output For ExampleCaseOne (?able S.7) ':
_;+ loo :1+! I
• _:
+.:+,._++++.++............. _ .............. +,:=............++r_.+,.+!+_+?_+++'+_._++'+++++.++:_+_ _'%=+_yL+++,_...__'_--_' ' ' +'+" ,
00000002--TSA08
1_. I_CIFICHEkT ORIQINALPAGEIg: (m F! (Ii_/I,_B P) OF POORQUALITY
•', 0,4000_+000,|_1_O,_O0+tt_ O,SI_+O0•
• 0,_ 0,_1_,,_0 |00_+04 0 lltl0E+000 +14K_ 0 |9M[+00
+!
.+. -0.4_4_! O,t4ooE-o!i 0 1_+03 0 idl_+l+ 0 4000t+00 0 _XXE0i+, o.2004[_)20 eD00101++ 0 4_+01 O,a/OOf_'Ot
+ me. emmxvx'r<+
o+mt+m o_+oo0 _I_+_4 0 i_+00
(+++ t
_, ll_lt _t7 - I_t NO.f7 i
_lCtt,lLltTt+leelLA'l'Ot+_lgO_,40I)EI+F
(_ n (_,/cu.n) ++
o4mm o.m_m++ o+_m om+m++++ _e. _lqtllqCIIPAt
+ t_ n (I_ILIiti-DEClF) _+
04tI_+03 0 I000E+00+ 0 _[+0_ o I00_0+,+ ommm o_+ooO.+OOAt+O:lO.|ltOe+
0.60041[,o,Otl O.IITOE_
0 1000_+040 12101t+00
0.14001;:+.0,I0.1440[+00
O.lgOOt+O4O.tt_+O0
0_4ot+04 o t_0t+oo
+++ Table6.1 (Continued)•; lOZ
:I 'i
+_+;++'' +:+ ...... +_1 _ ]': +++" + _+_ ...... ....... "............................... 0 0 0 0 0 0 0 2 IT _ _-- I I I _ C
ORIGINALp_Q__OF'POORQUALITY
(m F) (rI_/F14-BF)
O,;lO04E_ 0,1_1_0,4004E_ 0,_61_,.0|0,6tX_ 0,n+_..0l
' 0.101XE_4 0._0.W01_+OI0._Pt_.._0,140aE+<M6,400,_.._!
0,t0001t_ 0,49601_-0t0.i00_ 0,J,SE..0|
• '41j. BIIUiVlIY(NOF) (l_lll_ImI.L_)
-0.459_03 O.t_5001++000._+401_ 0.tm01t+00
+,
_. ' _t'_Ir7
tll01)ye01N1'_ • II Imlel.I+l_lellvl_llfu1'T_Lil
I'11111 FII_P&M+. I_¢ l_ItKeY. I_iIIILIIE (_)(_CI (LI_/_.F+-_C) (liTIJtLIM) (LSF./_I,PTI
0.001_+00 0._XtI-PJ 0,ttlt_+0S 0.1IlIiZ-010.{_(IE+01i 0.i_IE-(M 0.Illl/IEe0+J 0.IM4_..0!0.t00Olt+0_ 0.mZ-¢l 0.|iZIE+_ 0.llW0e+000.IIPJOE+<I_0.31_t111-04 0.1t;_+0ll 0.19Y_+I)00,|l)0(_+0:l (I.I)_-M 0.|ll_H)li 0.:77_+00 UI_IQINI;.LPA:L+i+._I+B0,IPM(+0_I 0,1_0q[-04 0,tl;t_+0ti 0,_l12E_0 OF POORQUALII_e0.ll00011+0_ 0.lll0::l[.<l{l 0.I111_+09 0.l_i0t+_l0.;l'_+0ll 0.1799E..03 0.11_/_+_S 0._0E+_i0.171_+0:I 0.P+;li-02 0.III_+0_ O,7"/4_,_10'.2000E+0ll 0.201M1-03 0.II0_+0'_ 0.111M_II0.3S0<I+<_ 0.3711iI._I 0.t0_+011 0.IP/_[+0_0.400_+03 0._lT_..0"a 0.1060E+0l) 0.i0011l+_,90.4ll00E._ 0.4101E-IP+ 0.t0_i 0.+tlltt+0_0._X)0(+0+I 0.4_l+E-0_ 0.99664[+04 0.1_14_+0_
0._W_(+o2 0.440_-0_ 0._P/t+o4 0,2470t+0_': 0.I+_0_+0:I 0.4lilMI-<_ 0._0;:+04 0.IP_+0ll
o.6iOOt+03 o.4+61[-o_ o,lw6_+Oi O.2iO+t+O_
+'+ 0.l_ll0e+0:l 0.W+_-03 0.1_101t_ 0._t_4t+0110._I00E+02 0.?i_E-0_ 0._i:+04 0.210_I!+011
0.7_E+02 O,IO12E-O_ O.lllO+e'+O+0.24_K+0_O.71W_lt+_ 0.1j4_E-(i 0.79M_+04 0.21Mill!+(190;_M0_+_I 0.129111t-0;l 0._'li!+04 0.2PJI_+0_
. 0.e0_+_l 0.t_e41!-<= 0.7610£+04 0.411_II_Ii
O.Ot_it_:31 O._I_IE._ 0.714Y_¢¢4 0.49'J1_10.II1110(+0:i 0.I161_I!-0;I 0.6T/_+(M 0.$_IE+0110.90M)t+O_ 0.;IP_-0;I 0.6.18_+04 0.11_l!_.l '+
0.10041:+04 0.71_Ii-0;I 0.4000E+04 0.I14_+0_
0,10_+04 0.44_t1_-0+1O.tt_E+04 O._llMt+O_0.10_;_ 0.44_-0_ 0.:I'_!:+04 0.9'JOte+_i0.iIOE¢'O_ 0.14_/I!-_ 0.211F..'YO_O.tr_O_!0.111_+_I 0.4_57E-GI O.J_2t+04 0._0.114411+04 0.13_llt-_ 0._496_+04 0.9407_4_1O.i lT_['l'Oi 0.5t22E-0_. 0.|1_1_.104 O._P_6_,,_I
O.l;g,Ol_+04 0._It-0;l 0.t;P_It+04 0._._t+090.17_,01 O._ill_._ O.lO_It+04 O.O_ll++OI
+ 0.12ME+01 0.1_10tll-02 0.69_+02 0.1_f_+Pa +_
++ 0.1410_+04 0,MI44[..0;i 0.4M_,_. 0.7MI,_'ji
i.
'+-:+ ':; !"+ (c ),_ Table 6,1 onttnued _
104
•-- _... ,_,"' -' t+ _,+ - , , +', +m_ ' -._ _,+ ,[ , • .......=++,., :,+;;_o;_-:,_r+_+',+,,_'++,_+::::_++_t_+; +,,:":,+,,+,+_+_.:`:_::_+_"J+:i+_?:_+?_+_::`_++_'_-_-_+-_+_`-_+_'`'_'`,"_`m'___+_``+`a_`k+ + --..
00000002-TSA12
1 tt_gCTL_OI_INITIOH OF POOR QU/_Lr_
TIItIT_ lO0,O0lEOF' 1'81=_' d,O00EBf_ FIJ t t,O00 t_i
611_fU1_1_ • ? AI.AT(1ULt_I_IEllI*I.1• HYII,_K
. It _ • II ol_rK[_ _I_A_• 0,416_?E,,,OIIN,
IlINl_• 3 DI_I'N¢[_ 8Ul_k_,£• 0,4161!16_"01IN,
iI_tt_ _ • ? Ml._'rOltULttlil
HOK_ • 3 DIg?Ale[_ ItIAIleA(_:= O,t_ Olill,
NUleD• 3 OZeT,_r,EFIIOPItBLIilII=ACI_• 0.0333_EO|[H,(Ol_¢lnlqtUllX • 3tll_A_ltt_"_ • ? AHATlt_ItL[_• 1_.IdLt • | dfO,_lll(
HI:E_ " 4 DIIrI'AICEFItOPl9UIIFA_= (I,13OOO0[_OIN,
gt_ OOl_• 4 OIKP_[RtO_L_tFAC¢• O.t_XlO¢_O0llq,¢Olll_?llIlU_iUI= 4t111_1i_[T_ • ? NII.ATll65DLINHtHA_IN. t =|-tKO,_OI_
' _ _ • _ bl_l'_ RtOHtldtr_CE, 0.t6666_[*001#,,i,
¢OlX_?lttlJ_l_• S
:I 611_UCTURE1"_ " ? AIILA?OIIgUOLIHBtflA_IALt • 1HItO.CO_NiOl u 6 DIIlTAICE_ _jll_Al_1 0.i_010 _ll,
I_ IMOOI= 6 DItlI'AI¢I__ S_AC¢. 0.I003_,_)0Ill,
6?l_Tgl_I'_ ,= ? ADLA11_IMILINgtml_ZALt • tHIrd,¢Ol_
HOENUNltUI. ? OIBtAPI_RtOH6LA_'AC_.0,_00 IH,f
ttfl_llXW_ • ? _llATdllIlUllLlltam?_lll_Ll • |-diO,cOmqHt_gi• d tlll_ _ IlIJ_r_• O.Irtl_O let.
'leble 6.1 (Continued) _f
lOS
00000002-TSA13
IeJ_U, q 01_k_tIql_MP_ _ 0,:123:1Z_IN,
fllt_fLqll[I_PE • ? _'1'01tMLItI_tIIq_IALt • |'+frO,CORK
MtlOEI41.NJtll• tO gl$?Al_[_OflSURF+[• 0,378000E*00IM,
IIJ_HUI, 10 DltlYANCE_110HI_URFACE• O,37_X_O_+O0IN._NXX:?OIInl#_l+ll• 10_CNA[ 1_[ • ? ABL_?SMLIagtm_IAL S• lt..O?O,_K_ • II DI_T#I_EI_ll(:llq8LI_VA¢[_ 0,416tPW_+<)0IM,
cmmtmmmm..
_ • t3 DIQ?MC[_OHNIFk¢[• 0.4N333£+00ltd.
!', trUEIINII_I• ID DIgTANC[_ 8Ufll+A(_l[m 0,490333it'14)0IN,i,, _III_T_M_ • I;+gtltVl:TLltlt_ • 7 AIILA?OItSIAILIltI_
i! t_ttltI_ l • lJ"gTO,COIIXilAfDIUt• t3 OISTAI_,£I:flUPI6IAIFAC[• 0,_<1000_+00IM,
,+[ _ HUHD_: 13 D1BTAPk_FIIUHSLI_Fk_E• O.500tX)IX_+,O0IN,i',L
d'mUl:Tt_ltt"#[ • 7 MLA_Ul.lngtMllgtlALt * |"9?O.CttKHt.iHil_• 14 OIGI'At+C[_OH6UqFAC[• O,_|M?i[+O0IN,
:_ _ _ • 14 OI81'_J4CEFIII:IH81JItFk¢£• 0._41_4,00 lM.¢O'.'IXX:TOIt_ • 14elatx:'hJit_ • ? Ak.Al'OII81dlLltglM?tI_IALI mD"5'?O.CORK
n09__lgt • 19 I)lSTAI4r,_iHtgl'lStMAC[• O,N3S331t+4_OI1t, ' ,
IIOOE_ • It) Dll;"rklIL'EFIIOH8Uil_+q,C[,.. O.tlO3333E+O0IN.CI:II(X_IIIfli,A'ID_q• ltl81111,A:TUIIEI'YI+I[• 7 AJk.ATI:II311DLINItll "IIAlltliIALI. II,.SIO.CI:IAK
NtI_EMUI_II_I• 16 0lSTKEFIt014IUIl_iP..It• O.It_"JOOO(,,e,O0IM,[,
T_ble 6.1 (COl_ttnUed)106
L++:._._+_+_....... _.._- . ............................ ; ..... . ..... --_ _/ll_)+ .
O0000002-TBA"I 4
EITtlI£r_[t+_ • 7 _tOIt MI.IIB OF POORQUALITYM_'_L I • ll_0,P.,llm_ • 17 N_,[ _ IUIFMC[• 0,_+00 IN,
411
+, _ MI.IIR_,, 17 01_AI_:ERI014SURI+_[• 0+/_W_,_+00IN,+ 4_IXIDlk"Tl]llll.ll_g • IY
IIllM:'l_ l'_t . ? NLAT_MLIe• _l& l • I14'I'0,¢01tI(
_ u 18 DIIPrkI_EF111314NIFAClt• 0,?063241t+00IN,+,,,,+
i+ MOOt_I_,, 18 I)I_I[ _ tlW_C[• 0,70e_l_l<[.,)01111.
i. _ _ " I ALATItgUIILIlI_
IO_t_, 19 NIPt_I¢[_ SURF_I[• 0,_+¢0 Ill,
li_ _ • 19 DX_ANCItFROM_UIAFAC_,O,_lOO_,_)OIN.
EI'RUCI_IRE_ =, 7 _.A'rI)RMLIHr:R
_t_ • ;tO OIS'I'_Nt_tI:II[]119LII_'_= O.?9IM_+_0IN.
i
t+ M01E_, ;tO OII;I'_JG_ I_IJIF_== 0./91_+00 Ill.i
slm_tums_ • 7 4m._t IMILINettlA1UtlALt • |-S_1.¢!I ,,_ " |i Dlgl'_¢E_ 9Jl_K[• O.IK:K_I:HIt+<)0IN. '
_, ,_l i)IStAe¢[_ SURFACE• 0._+00 IN.CI)IIIUCVORm • ;t|g'IltUCYIJI[_ • 1 AIM..AI'OI+UI.IltttglACIALl • FfnO,COltl(
I1_ IlJ_l m _ D|_r_J_Fill]+IIUI_RIt• O.fl'JlX_+O0IN.
¢0110Ul:'t01lMI,I'011_., ;I;Illl11_Itl_it_ • 7 NM.4't011ULII41_
. II_I'I_I_ ! • il-l;'10.Oi_Kll.l+t_• m 01_1'//__m _C_ - 0._1+.+,6_,o<)0IN.
_ • Z) OlSTAIqCt_ tltlN_AClt• O,+lM_67t+O0IN.COI4DU¢_MUPiB_• 239'11_'1_1tlt_ • 7 NILATOItMLlPQIIA_XALl • it-t;tO.Cl:lttt
tie _ m _ DIStAI¢[FROMSI_¢[ , 0.91J_124[.,00IN. il
,' |
Table 6.1 (Conttf_ued) + t+
107 '! I
OOOOOOO2-TSBOI
COOaH_CTURm_ •S'IAU_'I'Un[TYPE• 6 'tHIN_IV*IqA_LALl • AL,70?_T6
t_ I_tlt . _ Dl_lt FIt_SI_AC_- O.tSOOOOS+O!Ill.
i
• !
Table 6.1 (Cob'c1_ued) ilOB
.. -_ .... +....... ....-. ++ .......... :.,+. -------+- _ -.._ _: ..... ,:.:-.+_.+_.:_+++._:+_, :+_ +- i+. +--,+.___'+J'+,.,,__.,".+:_++ , + -',+,+
l +: + '+ +: + '+l n+';+'ll " ' +++'Y If++ l...... O0000002-TSB02
-_ tTHIBte _ _l_IOmA'rJON_t JN_PT. S
': amI, O_' -...... ' = _---_-- --_-:=---'.... ' --'-" OF POORQUALIFY_,0 L:t,O !4.0 I
, S,O l6.0 I7. 0 l "g,d t
':+ q.O I: , " tO.0 I
" ll.O |:"'"' 13. 0 I_:_:" 13, 0 II-_'O,COIIKkJil,3q'l_ULIE 1.000000IN.
14, 0 |IS. 0 1
;:_ 16.0 !:+_ 17, 0 l_i , tO+0 I'-_ + 19. 0 I
21.0 I.r
! ,
_, 0 I .. _.0 l
......... -fro Iq i-- • " -" I ......'m25.1_ i ,I .... _ ----..0.1_.'+000IN.C_.COt.N I
_t... '.............. |
...., IIAOIATIONOAP I,SO0000XH.
+'!i
]
0.t0(3000iN. _.?079,..T6 !
LTOPh,.I'6114111_llll 0,2130000IN.--37, _" ....... _:..................... ' :- --
0,140000IM. INCONL617 I
_J + IZZZZZ ZZmZ X_.-t";. Z Z l ;i+--j+,.+-i++ ' ' I_L.+'+ ' +tlJ_ '.00_ ".
Z Z I" ZZIZIZ ZZZIIZ l
_+++.., O.tllO000IM,¢_0.¢I1.tJ1_ l,-++ m_8. C- -"- ............ '? --+i
t. , t
+.!I! 1'able 6.1 (Cont'Inued)
!::iI zo,
O0000002-TSBOg
p
i__.!r !
ii: _* 7116• O.O_OO?lit I_ • 0.000130NO°_ 8t_ • 0_: lh_Afg)fIAT HEATnA_I'
' WI,I_11_ 0,0 _e,/eC_l) .0.0 ORIGti_i._lLI.'_+,,_,,,_.,(,,:+ ,WIA11_ 0.0 ekDIATI$ 0.0 OF POOR QUALrrY
i; _ LOkO 0,0 it"rLO_ 0,0/. gTOI_O 0.0 IJ_ltl_ 0.0IL t_t.lflm 0,0 ULIIg_) 0o0,;':. AM(:I_I 0.0 _DP[C11_ 0,0:'_ 1_ II1 0.0 11__ 0.0ir
i] DI_Tk_ 0.00000IN. I_CEgSlOIRATE 0.00000Ill/tO:" ?IDellA11_e[ll_F!! ?| 1), t00.000 T( _l. 100.000 T(:1). lO0,OClO T( 4)+ lO0,O00 ?( t)_ 100.000L_ T(6) w100.000 1"( ?)- t00.000 T(0). 100.000 T( 9t, iO0.O00 ?{ 10), iO0.O+X)!i. 1(Ill,100,000 T(I|1,lO0.O00 Tli3)ilO0,O00 T(141.lO0.OOO I(19)a1_0.000
T(i_),I00,000 T(17)'*I00.000 IIID),100.000 TI19),I00.000 T(_0),iO0.O00!_;- T( _l)_ 100.000 T( 22),+tO0.O00 'r( _}_ 1oo.ooo TI 14), 100.000 TI _), iO0.OOO_: Tt _), 100.000 11_7). iO0.O00 1l _), lO0.O00
' lull I)' 0.000 IX( ll)* 0.04| lit $)" O.O_ll IX! 4)* O.IIS lXl S), 0.167• IX( 61. O.iO_ IlL 71, O.llO Xlt lit, 0._ lit(q), O.fJ_l l{XtSOl. 0.3'/l
lit ltl),_ 0.417 IX( |$11,, 0.4_1 U{ t3l,, O.MO IX(141,, 0.949 IX( it),_ O;_l.- IX( lb}_ O.glS XI(IT), 0.667 Ill iO|+_0.7_ IX( 191, O.P_O |X( iO|i O._Srl
_( ttl- O._ll xl(_), O.IP/I lilt 131, O._t? x_( lt4_, 0._ Ix( III, l.O00111_}' 2.MO XX(i'll,, t.eO0 XI{ _),, 4.800
1'111. I00,00000 t_ _1_ = i.04:lOV NO.OrSlgq - _e
II_I_ITI) I_? HEAT_T_Im,++.,.,c++, ,,., mmm o.+
1t,3 inlEl) 0.1f_.tl_ 0.0 ULIII_ 0.0MVEC11_ 0.0 kl_ClU) 0.0
• _ 1t"1' 11,3 'I_NLr'I' 0.|
Sm_ n[Cl_lm' llltltkl_:l: 0.00000Ill. llltlll_lOMflkl_ 0.00000IM/_I_
11 11,,11_._ 11:1, |74.109 ?l $1, I_.?IA 71 _)* I_.S_I T( $l, itl.M411 _l, i0_.400 T(1), 103.114 71 11111,t01.4_ t( _l, tOO.&1] it(|o), t0o._
ill ?1 liP+ iO0.Og6 TI liD, 100.0_4 1_ iS), iO0.Oli 1i 14), IM.O0_ 11 Ill++100.001
11 16|, tO0.O_O '_t |7|, |00.000 I'I 181, |M.O00 T{t_;)• |00.0_ 11 _|, |00.0_0T(|i), iM.O(X) 11 _J}, lO0.O00 tl _), I00.000 T(IH),I_.{_ 1( _1, IO0.MO
: Table 6.1 (Coflttnued)
;tO
•...+. .. _ ++:.. ._++_+_ ..... _- ._.++.__..+?.__"-_•, - - r+ • .'.."*_+ - " '+'_:-%-_%_;+_':-"+." :+" ,'-,'+ ,L.L7-/I_ _." '+
....'.......' ' +'- " ' .................. O0000002-TSB04
t_ FOSITIONttlCtESIX(J), O,OOO iX( JJ. 0,042 XI( 31., 0.083 Xl¢ 4), #.in IXC_), 0.167iX(A), 0.g0e Ix(7). 0.ZiO xl¢ t), o.m IX( q)s 0._ n( tO), 0.37tIX(L|), ().4L? Xl( illll, 0.4M IX( llll, O.MO Ill( L41, O.llltl IX( 151, O.m|i( i61, 0.6mS IX( |?l, 0.617 KX(_8), 0.TM IX( i_J, 0.?'d0 IX(g0), 0._Ill lit, 0.Mli lilt Ill* tt.lS ill Ill, O,il? ni 11), 0.1M Ill Dim l.m
.. 111Ill. II.M# IX(17t, 1.tti! II( III, il.1011
tIK • _.0_00 TIff _ • 0.4?696 NO.OFgTE_.. NORt_AL PA_i_ _
• INIIBARliHBtT 1141IA111B OF POORQUALITYIIQ/M,FI IIIIlIIlI,PI-tB
WIAII_O 34.0 flADIAIill 0.6tit Lil ii.i lit i.011 0_i0110 _.tl Itlllil 0.7tM,INE_ 0,0 M.lnf_ 0,0AI)WC_ 0.0 AOVEC_ 0.01111lit S6.i 11tilk 0.7
lUlIF_ llflBllZ011Dill 0.I IN, E_ll _I 0,I lie
T( |tJ69t.163 ?( |)* 413.014 T( 3)1307.611 T( 4),tli.010 ?( tla, llli.litli 6), 1119,ii77 1( IIi lilt.lilt II Of itbJtl_ Ti ill, 109,504 t( lltii II.MT( lli* 101.tl_ ?( tti" 101.1_ T( Ill" 100.939 ?( t4)" 100.410 T( llti, 100.111II t6i, 100.i01 l( Ill' 100.0411 II lip 10¢.011t ?i 19i, lt_o00t 1_1ill, 100.004?i lli" 100.0el li Ill- tl0.O01 li It1_ ll.0M T(t41,L100.Ol0 li 15P,ll.01bT( lt)'_ 1®,_ T(tl), II._ II Ii1), l®.Ol
MI?lali Xi¢lllliII( lit 0,004) illl( |ll (I,041l U( _|" 0,41_3 It( 41i liotilll IX( Ita 0.167Iit ii, 0.1011 ill li- 0.1tl lli Ill 0.191 lli 911 0.333 IX( lPll 0.31_.IX( liil 0.4t7 II( itl, 0.41 Xlli Ill, O.f_i0 IX( tli, 0.tl Ill 19i, 0.tlit lip 0.11_ ill 111, 0.1iT Ill lli_ 0.706 Ill 11tl, 0.1M Ill t)i, O.ltlilli( ttl, 0.IW iX( llti,_ 0.111i if( ill,, 0.9t7 III( lil_ 0.1t_l Ill l_l_ l.il0I11(lltl- I,MO IX(l_i* 1,1_ Ill llll_. 4.tM
TIIIE• 1_1,_I1_ Till: _ • 1.42916 M),(F ft11!I)1• ti
lli11!lAl"dlHEAT HUTtAltllIYUIIt.rl IIUIIII.IHt¢
iiSl_Tfl 310,4 1111t.11 3.l'IAIIIA'I_D 1#1,4 IIAIIIAllHll thlt
I lii IAIII 1106,0 Nt?Uli 3.4t11Wdt 103,0 IlUli!il 0,4
.; Klll_ lOl,3 6ULIJI_) l.O,- llllf_lli 0,_ AO_C_II 0.0
_1 IEI 106,0 TIigPIE? 1.4
Table (;. i (Contll_usd)
ll!
O0000002-TSB05
i_ ORIGINALPA_.,_I;_
t DIeI_,0[ O,OOt_,ZN, _¢L_lC)IMIE 0.000_I,/E
• 11 t), 7_)._00 T_. ), _/.61_ Y(:l), W.t_t T( 4)__r/B.4eo T(_), _.1011'( 6l, |_._1 T( 7l. JIo0._S f(8), Ib_._ll T( 9)_lll.m T( 10l*1_8.0_1111|10117.4_4 Yl l|)e 110._1) T( 1_1_1_._1_ T( 14Ira|O*3_ff/ T( l_tleI_.[q4T( t61,g0l.tgt4 y( |/)z 100.?0S T( I|lt 100._1_ Y(lqPlu101l_|12 f( _l* g00.1||
:: 1(||), I00.0_ T( JJ)*1_.0_10 T(_1), 100.01§ _l |4)* 100.006 Y(_), 100.001: _| P_)*100._ _(IP), 1®._ T( J_)' 100.000•.+ NODEII_(IITIOlllllCH[lll
IX( 1)_ 0.006 XX¢D)' 0,044 XI( _)_ O,Oe:t XX(4)" 0.l_ IX( _t)_ 0.169XX( 6)" 0,100 IX( 7)*' 0._0 XX( 8)" 0,_! IX( 9)* O,:il_ XX(|0)* 0,_/_IlK( ill, 0.417' If( l_l, 0.4_ IX( l_l, 0°900 ILl( 141, O.M| IX( I_AI, 0.d_83I(l( 161, 0.6,_ IX( lTl. 0.667 Xl(18), 0.700 IX( 191, 0.710 ](X(_1. 0,79_IX(|11, O.g_l XX(_), 0.8_ XI(_ll, O.dPl? IX(|4t,, O.'PSO IX( :Ill- 1.000Ill _), _._00 XX¢Q'/)* _.eO0 XXl118),,4.tl00
TIRE* 400,00000 TIFE_., 1.03_1 NO.OF_ * l_
II_'tlAI_D_tAT It.AT_AI_S
C0_Cl_I) e_o._ 01)1_1:11_ 4.1:.J . l_!l)lkl_ l_,l I_ki)lkl'El) 0,_
_ lOAD _0_,1 eLrl'LOAD _,_:-.. 9TOItl_ 1_,? _ 0._
'.-- kl_cl'_ _.6 kJ)VE¢11$ 0.0 _,.
_'_ gW:_ KCI3Sl_. IJIBTAICE 0.0_0_$ IN. _C[gSIOId_TE O._OOISINI_L'¢
T_P_ATU__ F•: T( ll.. 760.400 T( ;t)..6G.6_0 Y(3), S39._94 T(4), 441_.tqA1 T( $)- 9'R.Z_ _.i-_. 1( 6)- _lO._t_ T( 7)1;_t8.019 T| |),t 2_.4_ T( 9),, 19_.107 T, 10).:l_7.lO_ ,._- T( 11)_141._5 T(t_), 1:_.713 T( 15)*,1_,1_ T( 14)a114,'/00 T( _),* |0%_'YJ
1'(161e10_,|_ 1'(l/Ira t03.841 I'(18), 10_.:J/l T( tgl_101,44Jl "((_0t,100.SM1( |1)_100Jld8 1( _)* t00._1 1( _)_ 100.160 T(J4)*100.0_ 1( _)_ 100.0_0i,
i_ T( _l- 100.000 T( _)- i00.000 T(_01,i00.000'-:" _ POStTll)Ilt£HES
IX( tl, 0.0114 IX( _= O,04e XI( _ll_t O.O_l tl(( 41,, 4.1_1 IX( tl* 0.167.... U(6) m 0,_ )IX(7) = 0._) XI( 8)= 0._19_ IX( 9ltz O,_J_ IX( |0)8 0,_)_' IX( 11)* 0,411 XX(j|)= 0.4N XX( |_)v, 0._00 ZI( t4)t O.M iX( IS),, O,__. IX(161, 0._ XX(t/)_ O.M9 IX( Ill, O.?O_ lit 191, 0._0 IX(_), 0.7_P__:_ lit( |lie 0.till IX(_). 0.1_ It( _)= O._l/ It( Q41- 0._P_ IflL(_), 1.4100 ,
XX(E). QJiO0 I_t(_1, _.eO0 lit( _)- 4.1_
_'_ Table 1 (Co ed)_ 6, ntlhu .
_,./' .%'_z..._,".... _'"= -,-"__ . ... "_' .T'"-'_'-"_:-'-.-_'-_- _.... __/_ .*".-,,_-?_',,,:', ._ --_ :__"- .-_-'- ............. _." .............. _..__ _.._,_.......... ,__ .. .,:..._::.----r....--O0000002-TSB06
,+
*i ovPoorlml_A_ Ot _T nM1HI
'+_' il_e,Pf JIWmi,Irt-m[¢
,.l' _I_E_ 1i00,6 ¢l)lV[¢Tlg) 4,t': _IMitl) t69,8 It_IMll[D 0.II ',[!, l['f I._ eSO.e _ LO_ a.a_,i++_ Staid tda,q I11'0_ O.d I+,+ OWl,ira M:.I eUm.la_ S.o +1,.++ AoveC_+ a.e AOw.C_ o.0
i_ SUR_£ItEr.l_SI__! DIll?AlICE 0.0367| IN. R£C_IOHdA11t 0.00016IH/_C"+' ItN_ttJt[ K0f"": 14 1), _0.400 71 |)* _.040 TI :))"699.048 T( 41m_)|.:_2 T( S)* 4J9.|13
?( 61, 370.S?! ?(7), 319.t2t T( 81, t74.774 T( 91, 337._4Jt T( lOlu_MhO+?T( ill, 160,dd_l ?( i21, 1_0.3_1 ?( 131,144.4_ Y{14), 13_+.173 T{ l_), 133.q'_4T(16), |l_.0_J ?1 l?),, 111.009 ?( i|_,' i0?._ ?( 19)* 10t),0_ ?l _),, I_.:iP/t( |11, lOJ.131 ?( _)" IOI._N ?( _l" 100.800 1'(J4),'100.4_ ?( _)e 100.i44T(_). IOO.{XX) T(_/). iO0.O00 T( JO)*iO0.O00
XX(1), 0.037 XXl_1), O.OM XI( 8), 0._03 XXl4)+, O.glS XXlS), 0.167XX¢6), 0.M XX(7), 0._0 XI(ii), 0._ IX(9), 0.333 IX(10), 0.32SIX( ii)m 0.411 ItX(i|.)+ 0.4_11 XX(131_ 0.900 IX( 14)" 0._| IX( 19)t O._DXX(i61, 0.1_ Xlt(J?), O.&k'/ ltXl lO)* 0.700 ItXl19), O.?SO IXt _1" 0._
'.' ilt(|l) s 0,l_t El((_1/ 0,1_ |X( :1_|_ 0,4_|7 I_( ;M)i 0,_ IX(_)' |,000"_ XXl_), |.900 Xt(3?), |.000 XX(N)- 4.1100
Tltl_• 600,00000 ?IHE81_P• O.14T/'/ 140,OF_ • 4_11
ii e/ao.rt-c! P.01_11_ i_lOq.$ 011_/E01'_ 4.t' P.A_IATED 3_.4 tAI)IA'II_ O.|i IT LOAf) IIM.9 lSTLIMO _I,_
,+, m.tm _,a _Ltm +.oki)_l_l) 4.4 MQE¢11_ 0.0
ll)ltlTAl_ 0.0_13 IN, RIt_IOMP.A11_ 0,000i?IN/IE_1Bel_1_ Oeale1( it, 760.400 T(3), 734.kla 1( 31, _|._1 71 41, _)SO.040 1't 9), 473.1Jl
' ?( 61, 4iI.IPPJ T( 11, OMA)og_ ?( Ot, 31_.170 ?( 9)+,d?_.M4 f( |Ot, ;t41.4.9} ' ':+ ?l 111,|I|.M+ 11t|), iM,q8 ?l 13)0tMI.M_O ?( 141,l_|.O0? Y( l_l, 13_.6"/0 '.+
?( |61, 1t_,_'/ T( 111,ltl._ll ?1181,119.708 ?(19), lll.l_l"3 ?1301,|Ol._l'1'¢|1), 10_,4_ ?t _), 103.641 1(_1), |_1.366 ?( 1t41,101.2611 1( _|, IO0,S'/'J
_o 1'(361,lO0.O00 1'(|?l, lO0.O00 71_l, I00.000 i
"_ Table 6.1 (Cofltf,ued) 'i13 +*+
.. i!..,:_, _1
00000002-TSB07
C;)Ui_ l,OtiI+lO+(11_41it_ix( 11. 0.0+| IX(;I). 0,0S9 Ell 31+ 0,0[I Ill 41, 0,I_ IX( 01. O,li?IXI 61. O,;iOS XXl?). O,2'_JO El( 8),, O,m 111 9), 0,3011 IX(tO)m O,3'fi)Ill I11, 0,417 XX(l|l. O,4B El(13), O,NO 1X(|l}, O,Hf IX( IDla, O,W111161, 0,_5 Xk(1?I. O,MT XE(191. O,7Oe Ell ig). O.7'JO 1X(_01, 0,791111+i),,, O,m Iltnl, 0,6?5 Ill m},, 0,917 111|4). O?P'JU 1X|_),, 1,000IX(_1, +,tO0 n(;17), LO00 IX(a). 4,000
1+I
It OIIOPP[D_ t_Jl.llq_-_Lk1_NOI)[L OHI(_II"J_LL;"l_+++:.,ii ,",;_,OF POORQUALI'CY
111419IgTilt I_¢IOURATIOMFOilBODYPT, 3 +
ml |. O,+_n_mmm--'__ .=mmlmms,._.,--_-i .-----1.0 12,0 I4. 0 I5.0 I6.0 11.0 ! '0.0 i9, 0 I
I0. 0 !tl. 0 It|. 0 1i$. 0 5 ,ITO.COIIKN_..ATI_tI_LtI_ 0.949_)_IN.L4.0 1I_).0 IIi. ll I '.17.0 I '+10.0 t ilq. 0 Xm).o 1|t. 0 I;m.o 1ml.O i
O.17JIXX)IM.C_,COLLqll 1L Jll I ilnl I I _: : + .... :?_ ,_ X
IRADIATIONO_ 1.Ii00000IN.
I +.................. "- " t 4
O.lO0000IN,AL.?O,_Ttt l
' _.70_'Tt+ 1141H_tM 0.300000IN. i"-_6._- ::: _....................... -- '_
0.1_0(X)IN. IlIP,OlI.6t7 I
++ IIZZZI Z]tZZZZ I_. Z Z 1
1 Z M.,?OI_,T6Ztl?Al_ ;LO00000IN,Z Z 1ZZZZZZ Z/ZZZZ 1
O.IlkXXX)lit, Cfl).CIUHa 1
table S.1 (Co_t41_ued)114
;..... ..................... "....:"........................................ 00000002-TSBO8
ORIGINAL.PA_E ;3OF POORQUALITY
TI_ ' 700,00000 TIHI!_EP• 0,46010 NO,OF_ • g4:l
IMYI_t_ liar IlEAltlATE6IllJllt0,_ I_#B0,F1-tIF.C
It
OOP_eOTEI) l_Te,a coNvEc_ o,e, AADIATIOI 4_.1 iI_IATI_) 0.0
lit LOAD 1542,7 _ i.OAI) 9.0
gLLIII_I) I_W,4 Mt,Xm 4,1_C_ S.O A_)W.CRO 0.0
:r _ IT 11_i.7 Tiqlit i.O
gllW_ I_MIOMDIgYAIG 0,0_19IN, IIit_gl_10HItA_ 0°00020ltl/_0
: T( 1),'160._}0 T( |)= ti_._'_ T( _1)*'//8.'Jll T(4), Ib14.$10 1'( It1,449.0_;" T( 61._J'b.lt_l 1'( 7}=M0.169 T( II)" _10_._4 T( _)',/e/_,41_ T( 10)'114;i.100u' T( 111,,21S.4111 T( t|P, IN.M7 1'{l_)= "1_.M,! T( 14),,IS7.1t7'J' 1'(lille 144._14
Y(16)=1_4.967 Y( |_)=l_._q7 T( I8)t 11_).6_4 '_(19)*114.S= T(_0)"ltO._7T(2l)s 107.441 Y(_18 1_.07_ t{ _Jl, iO_.llO T(_1. 101.547 T(_), t00.000
, T(_), 100,000 T( _)- IO0,MO_. _ leI_ITIOMlil_g_i ll( 11= 0.07_ lit |1= 0.0_ Ill _11. O.t_J Ill 41" 0,167 IX( Sic 0.;I(I_.+ IX( _)t O.J_O IX(7). 0._ IX( O)= 0._133 IX(9), 0._"_ IX(10)= 0.41'7"--_ iX( Ilia, 0.4_ It( t_l)= 0._(} IX{|3)e 0._4_ XX(14}= O._i_ IX(15)= 0.(_=' IX( 16)= 0.667 XX(J7)- 0.708 IX(18)= 0.750 IX(|9), 0._ IX(_)80.8_J-_,
-_'"- ILl((|t|" O.l_J X_((_)= 0.91_ Xt( _11" 0,_I XI( _4)n 1,000 IX(_)" J.SO0
_" _ IXIOPt_D_ tMI.II_-AIlI.A,11t
_._"
._
._.,
4
.j.
-j" : l'
a
•_ '['able 6.1 (Contlhued)
" i15
O0000002-TSB09
, v P'I
|, 0 I ORIGIN;_L It++Jx.C,_-__'_I,0 I OF POOR qUALITf4.0 II0,0 I '6, 0 I '1,0 le,0 Iq,O 1 .tO,0 lIt, 0 +. 'It, 0 11..6TU,(_IIKklll.k'l_IJSLlm 0.910191IN,13,0 I14,O iIS,0 l '16.0 lIT.0 l10,0 1 ,19.0 I_.0 1
_.0 3t
amZl o _- '+ "+--_"..... '-+----'-- _ ?+'+'i ..... _+:_.... ++_' --
O.l_JO00IM.¢I'D.COLOI_A [
IRADIATION_ I.M_O_X)IN.
I
O.iO0000IlLM..7o75-'r6 I
AL.707_-T6_IN tKIM O,MO000IN.
;'+ O,140000IN, lllCOM.617 IJl i jjii _ _ --+ _ I
ZZZZZZ IZIZZI tZ Z XI Z _,10_Y6 Z lJT+qlIO_ 3.000000IN.
_: Z Z l' ZZZZZ| ZZZZZZ I '
_,, i _ •........... - l_,,_i O.tllO0(IOIN. I:TI).COI._I I" ""_' 0"+-+'_+_+".............. _ -+ "- - -'- i
I!,i +
i! Table 6.1 (Continued) I
ti; + I
'°'+"'_.".+:'+_......... 00000002-TS B10
'i
elm _e 0_=------- ..._.+.......w:..._:__.._:.._.__,L........_,.._..m
_1,0 I3, 0 I4, 0 I9, 0 l6. 0 17, 0 1lhO I+, 0 Ilo.0 llh 0 1t2, 0 B-tti'O,COflKMI..4T_MLIHOt 0,96+149IN,13, 0 1t4. 0 IIS. 0 Ilib,0 ll?. 0 1tO,0 Ii_. 0 I_. 0 l_t, 0 I
---_. O+ .......... - ..... - :::+,_,+., __ I+O,t_la_O0Ill, Cro.r.Ol.Ul,le l t
I I nllt IIII I ............. tm .t , tit tq II II I I I
lIL4DIATIOH_ 1,9000t10IN,
!u i Ill II ............... T +-+::::: _ t
O,I(XXX_IN,AL,?OT_T6 |
AL,70'PS...T6?HIM_lM 0,300000IN,"-"24,0.: .................. -: - : ............ ;+ - , , --
o.lmt,. m, z:.,.z + mz.............+ ......... l| +:
Z Z I +•+ Z Z AL,?O?_T6ZII'I'MIH_ 2,000000IN, +!
Z Z IIZI2ZI MZZII l , +i
[ _1 III I I I I IIII l| ........ ii I_ t
' 0,iii0000IN,CI'O,¢OLLIID I
MOOItIX_ FllallmAH.Ittlt.._L,TOItnO_ i I
I'
,- Table 8.1 (Cont41_ued) +t:
118,++
•,,. {
• o
: :+..,...+......:.:..;!.:'.+_.::++.++++++__+_++,.+.,.+,+__.,.o! +..::_+:...+:+:, .., ++0.:+.++.:.+..+,,+..,,.:.+..++,,°°+.+:.+..°:..+.;,+,,:+.._,_ .... ++.++,:.+,,._
O0000002-TBB'I2
e
,,7):+ITHI6I_tY_ Wd_IOI.AUI'rlON_ IOPtP?o 3
3.|' O0 I1 OF POOR QUALITy :4, 0 1
* O,0 !6, 0 l *,7. 0 I8,0 1
. #. 0 l10.0 IIt, 0 II-flI'0,C01IKM_TOI_ULII'BI 0,711_6NIN,lJ. 0 ItL 0 I14. 0 IIS.0 l16. 0 it7. 0 I18.0 I
;+ iV.0 I+ iit_0* _- ..................... :: "..... _+_+I----
O.i;_O0 IN. C?D,COLUMB Iii i ii ,m iii i | ii I
i 1I_l_l+qtlONON+ I,M(X)O0IN.
Im i i i ii iii i i i _
• O.tO0000IN. N..IO?)-T8 !
AL.707_-Y6THIM_lM 0.300000lid.m_o _,." ............ i'l t I I .......... IT.
0.140000IM. IMP'Ill.6t7 I ;++i llll IIIII m .... . d m ..... i _
IZZZZI ZZZIZZ IZ Z 1| ! N..707_T6 Z _AMIO'F |.0000_ IN.Z Z tlZZZZI ZZZZZI I
.... ' + --.-_ i - I
0.100000IN.CTI).W.IIID ImZj, _-_ ........................... ,u,u_ --
41
_m FD _I_a-MLA_ _L
!
i Table 6,1 (Conttflul+d) ,;/+
I 121 +
O0000002-TSCO]
'+IIHIII III '11'I[IllflIIJIIATI[III_ DY Pf, | ORIGIP_IALP_,e_ [;[_
OF POOR QUALITYam |_ Osmmummmm,,,.,...,i.,,_....,.,..-._zmmmmmmsmmammmn .-.--
l.a I3.0 I,.O Il.O I6,0 I ',1. O III.O lq.O I
10.0 I-9?O.¢ORlqkiLk_ltMLIte 0,?4l_PlIN.1l, 0 I13.0 I|_1.0 i14,0 I11t.0 I16, 6 117,0 ixe,o l
O.12tlO00IN. C_.COUA'III l+
IPJ_IATI_O@ 1,800000IN.
I
0.10000(}IN. L?O?t_T6 1
N.,70/Ft6 THIN_III 0.300¢_ IN,
O.ilO000IN. I_ 617 l
ZZZI|! Z|ZZZ! IZ I I
l | AL.707II'.T6Z9?kNI)IIT 3,000000IN,t Z lZIZIZI ZZZZZZ I
+ ; i i • ii i | m, . - ..... _
0.180000IN.(:T0.C0LINt lmi2_ . 0uT_+_:" L_ ,T * _i ,,_+ +_'___+=_-±:_u:+?+; \�=;"_'"_m -.---
Tlllt• lO00.OOO00TIMES10 • 0.0+II_ NO.IF_+ • 1041
1_t1_ tlPd' It,ATAAlt9II'llJ/tllorr rllJ/lll.l:l-gl_(:
Cl)_cl_ 61|Ih4 C(II(I_._'tl_D 17.6I_IATEO _,2 ItADIA_ O.g
_ 14_.It Itl LIW) 16.1 '_at(lifO Sl'l,! StClII_ O,l61JILIPlEO 101P/,I l_.llll 16.__/ec_f) _.4 _c_ o.t
lET I1_.1 1_ lET 16.7
Teble 6.1 (Cpf)f.'Inued), 122
• "% V
_=._ - -_ ........._.:...:,,:-.=:."__: :::_:,_:;=:+T:_:=+=.:.+..... _;!i:._-.-,.*+",=.:-*;._'_=?.;_"+_+_-;. =+:£:.,+_%_;._ +.:*++.,.:_ ....._:,++,'.+++,_',-'++o:+_'o
+,..,.+_,,:;,,,L'',+.:+.,';,.",,,._"+..... ++",.'",', ":+ ._,"o+o: o;+.+.","_+,-_'+"+Y+'o.".:_.+++ +" ,_'-+¥+....+' _..... +''+-'++'" ' '-' _'+'+'+......... °0 ..........00000002-TSC;02
¢lK/t_ I1[¢E181_ OF.POOR(JLIAI,.I'Pi_
1_TURE B Ft( it* 1_.44_ 1( ||, 644.6H T( 3)_6t_.m 1( 4t* 4_.e01 1( S|*B,_t
: 11 6), _lO,m! 11 7). Ir/_,O_ 1'ca),,1,_t,60_ T( 9)f |IT,SlO 1'¢lO),196.701. 1(ilS,i_._IZi T(t_l),tM.$ii T(t3),t5|.1|0 _'(i4), i4t.6$S T(iSl,lIB.il4a
I( 16)*J|llS,_ I(11),IIg.IIA T(1O),11|o76t Y(i9),i0_.169 y( _)i 100.016
tuITION1N¢_[8".- II( |)t O,NI 11_( I!)" 0,_ 1[1( _i)* 0,_ IX(4)" _,_'/_ IX( i)_" 0,41_
" |1( 6)" 0.4_i |l( ?)" 0.S00 If( O)* 0.M| XI( 9|" 0.N_ |X( |0)_ 0,6_lS: X][(iltm 0._? IX( l|J" 0.?06 I1( 13)* 0.7'_) IX( i4)" 0,_ IX( IS),, 0.t_l_
IX( 16)*, 0,1_t IX( 17)- 0,_i/ Xl( 18)* 0.gN X_(19), t._)0 IX( _)_ _.N0IX(_i), l_,e00 It( _)* 4.800
Table 6.1 (Continued) ,'_123
00000002-TSC03
{:
111419IS1'__IflOUI_AYI__O_,tODYPT. 1 ORIGINAl.PA_I_,t:_.. OF POORQUALIFY
m i. Of, "_ ...... -: == -:=_ ,_L.....:+ ll, O
3.0 I4. 0 ! ,,
,. 0. 0 l6,0 I7.0 l
'_ e,O9.0 I
10.0 il-_l'd,COHKADLATOIIULIHU_ O.6_P#lOiN.li. 012,0 I13. 0 I_4. 0 1!IS. 0 l16. 0 I i17. 0 I
_lB. _- " ':.:........ .. .............................. --.0.129000fM,(_?'O.COU.tgJ, I
!RADIA?IONOAP 1,500000IN.
• iL - l
O.gOOO(X}IN.,AL./OTOP?6 I
AL.7079-T6THIN9tlN 0.300000IN,_" '==20.C-+_-'":'-:_;-= ":-"..... =""_' " ' _=.... __l ..-.--
0.140000IN. IK'ONL617 Ii i i me i
ZZZZZI ZllZZZ ' It )Z Z lZ Z AL,?07'5,-?_Z91'ANIX:I_ _.00_0OIN,! Z I
" ZZZZZZ ZZZZZZ I ;i i i i
_" O,iO0000_, Cl'O,COUA_ I,=_1, 0.__- o,"....... _....._------ Immmmab
I
i
,+;. SClUlea-LImlOlln. it+ I
, I+
l
tl
Table 6.1 (Continued) ;!
124 t1
• !
00000002-TSC04
I?HX0InTIEOI)IfXUATION_ Inl01)yPI'. :1
3. 0 l ORIGINALPAC_E',_;_, ,:_I,4,00 i! OF.POORQUALITy ,',;"g.U l
" 6,0 I ++,?.0 ! :_II,O I i_+,0 H111,_11.AU1'OliUl.Xa 0.._10"XN, ++.
• 10,0 111,O i i.12.0 ti_. 0 I14. 0 iIS.0 I ,t6, 0 l _,
o.lm)ooill. cl'O.¢lx.tm i
__ LnL I _ I Jet I I ,n UlnL 1
tWlATll)IgAP 1,t00000IN,
IJ i : : - i n i i L inlu _
0.100000II1.AL.701S.,,'r_ l :_i
AL.7OgS,-'l'blHXNem 0._000O0IH..,,',_................................................--,,.n °,, ,
[ In I [ In L • II . |i i i i i _ .
/2ZZZZ I'/ZZZZ iz z xz ! &,/o/z-1'6Z$?AIIFt' :t.000000m. .,,:'_Z Z I '_:IIZlll lllZIZ I
• '_ ......... I !,0.1000(30111,¢?D.CU'_ i
•._.g':'_: ..........-:: .... .:._:-::-.:_- -:-: :_: ....... -- +,
Ii
. 'rlE , 1100,00000'1'__ - 0,2400+ tl0,OF_ • ID0 .i;IIIrI_oIiAIEDIEAT ll_A?_?1_ _
r,
WlA'I_D 76_.! I_IA1_ O.II t_. El' IOAD _P_.O I11t,OAl) t_l.0
IUN.W 61_.9 llKlalZO II.SAig_'I_I 14.1 P_C_D O.lI_qi_ 6_.0 11q_ l_.O
?abl_ (_.l (Contlnued) :I125
t o'_._- _...-.-.;.;.--.:-;.:,,:-.::;: - -: :)-:- -;:., : ?=T:_--_:'-2T___._._:: _ .:._922_':'_':" .... T_.'TTT_I-7_.... :*"::'E":_ o" _.,. '_ : '_,'- .. _ ." ..._" _. " . .:'._" " _.._'; • _:r,'._'_",L"}r ''''_' . _'_,:_,r_.7_'=_-_=, "_,,_r_*;_.,._'_;£_._'_-_, _m_;_;_i_,'_.___:"' _ _: _'_" _,_7;_¢_
00000002-TSC05
1891_[ K0FY_ S),760°400 Y( l)J 6_.il:l T¢ _)i NSom T4 4)m4|0.41:1 1+(t})J:i44.q00Tt 6), ff4.m Y(7), ;_.m T¢ 8), flh0_19 T(_), _1.9_0 T(10), llG,mY(ll)d166,7_I0T(l|)w1_.619 I'dflllJ14|.6ki _ 14Itlm._ll6 T(fll)_li_.?_t( t0t. 1t9.|_ T( t?lm||S,4_ 1+(tSl. t00,0_ T| 19l, 100,0_l T(_0|. i00,000
IX( lid 0,361 Ill |Is 0._ IX( ||t_ 0,417 |I( 4}. 0,4N if( t)e 0ol00 "It( 61, 0.S_I |1_(71* 0+Sl_ IUi(8|*. 0._ 1_((9P' 0.667 III1(101" 0.700IX(111, 0.7"_0 H(l_), 0.7_ IX(1_),, 0,_ XXl14),, 0,_?'_ IX4IS). 0,giYIX(t61. 0oq_ XI( i71. 1,000 XI_(t|l,, |,_0 IX(iV1. L_00 IX(_0I, 4,000 '
9. 0 I OF.PO_R QUALI'_ ,4, 0 |
..¢
_. 6.0 i: 7, 0 I+, 8.0 l
_. 0 |.-_.COA_ ki_J.ATOR_LIi_ O._ttO.eaIN.tO,0 l
" tt. 0 t:: 1L 0 I
t_. 0 I14.0 I1_,0 I
O.lZ_OIM,,¢_0._ I'++ - ..... + I
II_qi)I_qtl__ 1,900000IN,
Iiiii • _. lml I |1 iql _ I • II jl
0+I0000011i._1,.70_5-_1_ !--17. G_......... - .................... ----
_..YO/"_'l'_114111_lll O.:lO0000IN.
0,140000IN,,IM_L61_ I_ tl ii u ii i i i + i i i ii ii t
IZIZZZ IIZI_Z tZ Z i ,:Z Z L_'/_..'r6 Z_ LO00000IM.
'i Z Z 1 ".!+
. IZIZII ZZtIZI l "-
O.lO0000IM.C_.Ctlt.U_ 1'":+ ml_. _- ....... ' ...................... ----,.j !,
;: Table 6.1 (Corot<hoed) +
_:_'.:+_:.- ..... -:,/: .-,, : :.-:++++.-::+__;__: ................ _++++..,+.,+..m+++_,,++,+,+++_m++_.++-.;:-_++._-+;_ _+,0 .... +....
.:+ +o:,_............,+++.......+ .....+ ........ 00000002-T$C01
IF_ o- • ,_.. qq
ii:
,; Ot?fgfPTN;P/_:._;*.7r,*_.;[ OF POOR QUALI'oY!I,
YIE • IgO0.O0iX)0 TIME_, 0.16g|l _}. OF_. l_J04
•': INTF.I_ATI_if_T IF.ATIIATIi]J
_,,. rlI)/N,FT IIYUIN.FT-gEC
. _NV£_ 8141,6 {ONVE¢?E_7,0
._. llAI}IAltD N,9 tlADIA?ED 0,!,..._ octLOAD 7m.O _ LOAI) 7.0_. " _Onl_D _.? _ 0.4i," ULIm 7446.0 tILaW.IIE_0 6.6
ADdeD _.9 _¢ttD 0.0....' _ Lr1' 7e_.O _ NET 7.0
.:, _AF_PQA_IOHDI_AI¢It 0.4110;iIN, U_IOPl _ 0.00090IN/EC .
_._. 1ENPEEATUIt__ F_,, Y( 11,760.400 1'( 2)* 600,4_ 1'( 3)- .S.ll:_ff T( 4)= 4_,t19 1'( S)" _lO0.O_,_/.. T(6), _t3.1_ T(?), _.6u")' 1(8), 241.413 11 q))._l|.?eO T(10)-tl_._O__=._. T( ill* i7i,_ T( 121=iM._/ T( i$l, iN,$i8 T(14), 134.4_J T(t_), 1_0_7.;_ 1(i_)" 118,71_ T( IT)a,tOO.OaA T( tO}=100,054 T( tg)t iO0.O0_i eat _XTXg,tOqUeS_. _( llJ 0.41t IX( |1* 0,426 IX( 3it 0.490 IX( 4)= 0.000 _( S)" 0._' IX( 6)= 0._03 IX( 7je 0.6_ IX( 8)= 0.667 _( 9}s 0,708 XX(tO)* O.)_JO" IrK(ii)= 0./_! IX( t_}" 0._ it( 13}" O.l_ XX(/4It 0,917 IX( i_)* 0.9tll ,._. IX( 16),t t.O00 IX(17)" _.500 IX( tO)a, _,000 IX(19)" 4,000 ,,_
DI_PI_ED_ U_.IIg-ADL,A1'Cm
"ii "!.'/II' '
/!
Je_t
n_.r A
,;,! Table 6.1 (Contt,ued)!;_, 127
" _ _J
00000002-TSC07
|'IHI8I0 tHECONIPIU^I'i_FORBODY,Pt. 3
|. _+, _+____- --___...,..+,+.,._ -, _ OKI_INI_L | /+++'+t,,_.,r;|. 0 1 OF POOR (,llJALI'I_+tl, 0 I4,0 I0, 0 I6, 0 I ' ,,7.0 1O, 0 i.'91'0,P_K MI.AT_9tNLIm 0,5746/6IN,9, 0 I :tO,O_ I •it, 0 I :Ill,0 II_, 0 114, 0 I
0,IIIIIQ00IM,C_,¢0LH 'Illt_ _ II I I m ,ii t l l l - . i 1
iE4DIkTION_ i.gO00OOIN.
I
0.I00000IN. LtOtl+-t6 I14mJ_+ 0_ _ " +_ ,'" ,,_'*" "-:_ �_+_"; ........ i _
&.tO'P+-Y6TI4IN_Itl 0.300000IN. :+
0.140000114.I_0MI.617 I
IZZtZ! tutti l! Z I
I l tllt|tt ltt|7.! I
0.180000IM. ¢1'O.P,OL,_B l
TIlE• IMO.O000O Tilt II_ • O,TtlPlll I£. OF_ • lll_
ltll_llmlV.OHEAT HUT_tt_
C4_II_+_1_ 9'-_,0 C011_'lltl) 4.tI_IAI_ V3l._ I_t,lltZ 0,11 !117I.(N) O_i.0 _ 1.1_) 3.|
_40,t• 9tO_ 0,:I
+_/_ctl_ 4i.e MMt(:ttO 0.0 '+M_t IWi,'+ _I_IEt 2.| +.
+
P
Tsble 6.1 (Co_tt,ued)
128
" _- ....................................................................................................... + _ +J_ILZZ_-,_+++:;:.._+......... • ,, .+,+ . .+ . : __=+;,........ .+ ..... +,_+_+ :, ..+,_+:.+_+...++.,_._j_+,___,. + ,+_++.++++,.+.,...,___++.+ ++..... .T"_+...........
_+.+.:+++++...+..++..-.,.:+..+-+-++++.++..++...:+.......:-.:.:..... .+++.+.,...+o, .................+'+*..................... O0000002-TBG08
ORIGINALPA(_CC_WIll'ACER|¢mlIM OF POORQUALITYDI_t/_IK 0,4_4_IN, IIE_l_l_ttII/_ 0,(1_i26IN/fEe_t_BFt( l}, 7/_400 tl lllub_m tl 0}, Mi)lZl tl 4), 457,768 1( 0}vMIIMII 61"_t,t0/, ?( ?Ism.|J4 Yt |l* 84516 T( 9}em i?l TI lO), l_m9
•:_ t( l|l. tit 7t6 1'(till. 1600M t( LII_t4t 0r/ Y{141.t_474 t(i_l), t_I7• Yi i61' I00_16 t( Itl" 10OM ti 10l' 100004
#081tllilIK• ill! If" 04117 Ill( |l" 0_I ill( :llw 0M0 tl( 4l_ 0_| llX( Sin 0,580
Ill 6)*i 0_/_ H( 71. 0,667 IX(0). 0,tM Ill( lit 0,I'M IXC101. 0o'N_, I{1I(Ill,, 0.Ell H{ tl). 0.St_ H( isle o,gtt 111_(|41,, 0.fib U( 191' t,0O0
111{161' 11.900 Eli I?1" 1.900 Ill( I01" 4.000
tlt(, t4OO.00O00tilt 811_• 0._t(ll NO._ _ • 1676
l_t[D _t If.ATI_11_II_IIIII Irt t_t_li,_-ttC
= I_|ATED 1013,9 _@I/_'1_ 0,0" I£t LOgO _66,6 _ LOAD 04
::.-;, _I_ _I ft01_ 0,!
•i illtAl_ 0.4_ IN I_II_/I_A_ O,0(_ I_SEC
t( I)* 1_400 T( ;J),#)llW ti _li-_ _117 t( 41_s0q_/_i t_ _i_MI__ 1'( 61, :_._4 T( "I)=33/o9M t( 0l- _6.0_3 I'4 91, _0.0_ 1'( 10l=P.4_13 "
T( lilt _ 61_I 1'(l;_)=1819_ ti 13), l_l_ _ T(14). I_ ;EI_ T(lS). IZ091T(t6i.lO0.l_i T(It)-100.131 T(till.tO0.OlO
_" HI 11= 0.446 HI 2)* 0.46S HI 3}= 0._0 IX( 4)= 0.M| IX( $1= 0._IX(6), 0,6_ XXi?)- 0.667 II( 81,, 0.?_ H(9), 0.7_ Hi 10), 0.M "
; Ill li)J O._l IX(_). 0.0/S ill iS},' 0.91? II(14), 0._ IX(16),, t.000IX(16), |.M0 ill 171, _.M0 IX(lO)= 4.M0
•INITIN14_ t _O.RE'_ (LI_N.Irt.) @
. !
2_
i
_,, Table 6.1 (Concluded)
, , , , ............ . . = .
00000002-TSG09
_+
• ®..- I_ • t _X? ' 20 NSTP• 3000 tl_] * ! i
i
1 TStIII, t, It
tltgl ¢_t - mT140,4
TOiI, OIUEI?Y _-(m F) (LOflI(:U,FT) ORIGINAL,PP_,";,_;i:l
OF POORQUGLr(_' -0.ASv6tt+0tlO.tO_4_
O.9_,OE_ O.I(MOE+03
i,I'B_, GPECIFICHF.A?
-0.|4_M_+¢_1O,tSOOIt+O0-0.l_qPoE+0_0.tgtXXt+¢00.4000_+000.l+00t+000._104_+_i O._lKIt+C0
++ 0.k10_9 O._+O01t+O0' O.tOOelt+04O.W'_t+O0
!. 0J!000£+04O._lSOlt+O00._ 0.aSo01b00
T_. COitX_tlVlll(Dt3F) (011#lrt-_-l_F)
"0.4"_+¢_ O,IIOIE"09-.OJt496E+OttOoltBt[,-O{I
::i" -0J49_+03 0,IL_J(X_'03:_i! 0.40O0_+0O0,taktt-0tl:,. 0.tlk_4E_ 0.ig[-03
i'i 0.S_04[_19 O.t_?a[-03
0.lg00_ 0.t_-Oa0,11000[+040,:1+I_-0_
" 0.200_t+04 0,_-0a
t_, ItXtBtVlW(01KtF'l ¢iit_mtllUSOl
++; -_.45_ O.dSO0_O+
;': Table 6,2 Output For ExampleCa_;eT_o (Table 5.g) +
............ ;+r ...... ;+ + ; ++......... +.......... +_---=+_+;: : +
' + .+ + .......... +, _ k +p'+ r +----':L ' I ' ;_ + ' _+ + ...... _+_++ .......................
+'+++_ +.......++........................ 00000002 T$CI0
'II_P, DI_II_II'Y ORlEil!'"!;+tIL_J+''_"_,;I 1(13itlF) tLINICU,F?I OF P{_ll QIJAI.,IrI+'.+P
.,, 0._+.04 0.90001_,',01fl
lW, PE_IPICHEAT(MOFI ti111/LIIt-MF!
-0.4_+03 O,70<_-OI-O.l_t+Mt+_O._OIE-OI-0.i4_1_'3 0.10_+000,I00_ O,I_OE+O0O.P+O_I O.|tO0(_OO._X341E_O.P,_O.tO00(_ O.fmt+O0O.iSO0(+040.200_+000.17_+04 0,:!0_+000,:100_+,04O.aO_,_'+O
tl_. PllltIRlt (LIIIN,I_t)llmlI_) 0.00 0.Ill l.ill It.t6 _it._0 1116.00
-0.4_+_:10.t_ 0.I_ 0._ 0.41_lt-O'_O.I_ 0.__,_ 0.I_ O,t_ 0._ 0.4t_ 0,_ O._S : "o._ o._ O.I+9 0,_ 0._+_ 0.+_ O.?_S0._ O._S_+S 0._ 0,3_-_ 0,_ 0.0_ O.q_+l0,_ O,_f_ 0._ 0,_-_ 0.7_ O,iiiiE_ 0.110311-040._ 0.4t_tE-OSO,_+c,_ 0._ 0._ O,l_ 0.14B3_-04O.l_ O.H_ O.MX,,_ 0.7_ O.t_ O.iM_ O.l_0.1_+04 0.1_5_-0_ O.t_b_-<r_0._7_f£-050.1:H+£-04O.aOi4E-040._17_-040.i900_+04 0,11_(-04 0.1i9,_-04 O,tlt_..04 0.I?14_..04 0._q,_t.-04 0,_616£-040.I?_t 0.lSTOE-040.1_7_..04 0,16_-04 0._130_..04 0.i4_141t..040.3131Ht..040.3o0¢t+040.t0_.,04 0.10_..04 o._lPat-o4o._6t6H4 o,aa_t.o4 o.a??'_.o40._ 0._ O.I_ O,I-_ 0._ 0._ 0.4_t_4
: 0.PJ00£+04 0.32113t-04 0.3_lt-M 0,341M_..040,38611!.41400497_..04 0._it,_l0._ 0._ O._P_I[-040,,4_ 0,,._ 0.6UIE-04 0.6731_-040,a000t_4 0._t?'_-040,_-04 0.a4441t-040,60e2t.04o.Ttr_.04 o.oos_.o+
.' +, _, mt_llVltt(m FI (Otll_tOl_)
0.+')4lt+<M0,100l_+0l
AL,707t_-t6- t_T141,l
i. TABLE6.2 (Continued) +
;': 131
O0000002-TSC'I"I
oRIGINALPA_ I_TE_, I)ENSXTY' OFPOORQUALi'_II'
_'_ O.l'Ve_O,,/S_ O,l'V_,m
1_P. CIIND0_TIVlW(1_F) (IT_/F'1-S-_I)F)
-O._S_E_qAo.14ooe.,ol
O._OOE_OO._OE-O!0._0o_ O._OE-OIo._ O._OOe-OlO._(X_E_ O.:_E-O1
(le0I_) (l)llf_101_.)
I_Zl_ _AI_ IB00,40K0F
11_. DNI'P/
, TI_P. QPE¢IIqCHEAT(K__) ¢111J/LJH_F)
-0.4._ 0.100_00
Table 0.2 (Continued)
TI_, Qf_l_tlVltV
OP,POORqu^WTY
o,t_ 0,l_o_-_0,_)_ O,|MO(-O'J0,1000_ 0,Bo0e_0,9_ 0,_
tl_. _iGIIIVltY(NI:IF) (DIIEnlI]tW)
-0,4_e_ 0,j200e_0,9_0_ 0,l_
Table 6.2 (Continued)
__ 134
O0000002-TSC14
1 mTtuCVUl_lll_XNllI¢ll|O0Ve0Xl_ :i
1XlIIT• I00.00B Ie 'l'eI_, 0.00E0F el,/ ,. 1.0O0
®CIIO_TII+I+LIIII_• |8"+I'FIU_flJItE_+1_,, 1 tiLAem1_IkLI • mI ¢0kT_, 2 Dlltt4'¢[_ NtFkClt_• 0.10000+E+00IN.
IlOIXt_ • t OISTAII¢[teltOelOUleFA_£• O.tOOO_+O0Ill.O00¢TImI_D • ;!mm_E TYPE• l SLAJIIA_XALi • LI-900
ORIGINALPP,._+,L_'_Y:"tIX _ ,J $ 0I_N¢[ R_ SUItFACE• 0.16,_dJ_4_0IN. OF POOR QUALt°i+_'
¢N)UClitmsB • :3S11_1_1_ • t U.ld)
_ • 4 OX_k_¢lttFRill9LI1F_- 0.:_+,000e+<)0IN.C01OJCT01tM+qql_q• 4JTItUC'rlJ+elxee +, t 8L_• I'GVII.l • LI..+00
M0_EMI,K_I_I.+ _ Dt91#l(_ILIONSP.q;_FAI:_• 0J9750¢£'+_0IM.
MOI)[MUI_• S IDI_r#¢[FD SI_O¢I_• O.WPJOO[+<)Oill.1:(N_111tlU_ • elSmU_tti_1_ • l SL__A_LALt - LI-900
IO_MJe¢l_• 6 Dl_rMlCtFi_ IPJRFKltt 0.:+_0000it¢0IN.¢_¢UCRRMumm• 6muclmt n1_ • l ¢_MTI_IIN.I • LI-900llJl_8_• 7 I)lg'rN¢[_ 9UItFk_E._ 0.41_+00 IN, t
RIXt_ • ? l_Iftt/CltFROMI;JRFRE• 0.41PAOE_0IN. i
muc1_ tYPE. 1 _ ' i+ MI_EIIIN.! " L1"400 +
a[ mat • e oxsr_ctrO su_M:It• o.4/',o0o_+00_. t
' 1Table _._ (Cor_tlnued) !
!
136t.!t
O0000002-TBD02
I_ I_gt • tl I)Xgl',_ICEFIKI,I_UI_:£- 0,47_E,0'0 III. OF POOR QUi._LI"i'_ :
IIMIl_X_.| • Ll.,900
ICE_ • 9 DIQI'_Rtl_9UI_V_:E• O._I_SO_O0Ill,_IeUC_Ite_ • q
' lmU:lllE_ • ! IL_mlWltALi • LX..900_ ,, 10 I)ISTNtE_ MF#_E• 0.600000£+00IM.
_ " tO DlSl'_IL_ltROI4gJ_RE• O.600000E_O0]IN.
_11_1_L1• _I.,/O/'J'T6
It_VDl,q._ " #L.?OT_T_Ike.lE_,, it DII;'I'_flt01'lQ_ItFACE.O.i_)OE_OtIll.
I_IDI_. 1• it_1( 617
_11_tIAL3• Tl'r_Itl,I
Table 6.;_ (Continued) "
• 1_7 _ 'i
@
00000002-TSD03
i
UNi_ih_iAL,_sB_ C'J_._|_16 |g 'i'_GOWIUATIONF'_801)fPT. _I OF POORQUALITY
ICOAT9._ O.lO00OOIN, (_
I
J,O i4.0 iO.O6. 0 LI-_)O _ 0._000 IN,7.0 lO.O !9.0 I
0.120000IN.N.,707FT6 ti ii i iin i _
! ! ! ! ! Il I I I ! II ! ! I ! _.70_'T6 tOEYCOI_ 0.750000IN.I ! ! I I lI l l I I I
ml ........ _
0.110000It. _.7075"T6 II'll. _ .......... +'+"_"......... .,,:....... ; ....... , ............, --
0.090000IN. INCONL617 Iii ii i ___
V V V V IV VV VV VV I
,. V V V V V V V TIT_IUIt COI_ATEO 1.O(_OOIN.Vv VV VV V l iv v v v t +i
..... - ......... ---- t_,_ t
0.090000It. INCOM.6i7 |'*"12 C-............. ,......,.
1
TIlE- 0.00000 Tl_ _i1_- 0.000_0 NO.OF_ , 0 (_
_lt_l_i) 0,0 CO_C_ 0.0ll_lk_ 0,0 IlkOlkTl_ 0.0It'TLO_ 0,0 It"TLOAD 0.0 ':_112_ 0,0 S101_ 0.0SUILINE_ 0.0 MLItED 0,0 ' ,)J_Ecl_ 0.0 _'eCTE_ 0.0
1 _ _ 0.o I_SIt"T 0.0., +.+ .
Table 6.2 (COntinued)!
138
w_`we-_`+_+_(_+_`_`_++;_-_++_+`_`_*_;_`_`_;_-*_,_:+_+_:_=_;_--_ ': .-"_::_';_:" ::_ _: ..................... "°1"" .... I Jill I II iiiilr .......... _1.......-".:_.::+"._.'_:_',..°°_.-'_. "i' _, , . .......'' ,_ ,,..._._._;_,",,...I_,_+;,.Z,'7_.,7_o+::_,".."°:.:. ':--- _.,_,. ,_.._..._ ,,,;,_'_-"_ .................... +,_._,,'_':"'_"_: _.+,;:._._,:",...
00000002-TSD04
IU_gl[IIECE_tlII ORIGINALPI_G_I_:'!_DiliTAMCE0.00000IN. IRCEBSlONIIA11_ 0.00_0IN/tEC OF POORqUALITYtmem,_E E Ft¢ 1),iO0.O00 T( 2l, IO0,O00 1'( 31.i_,O00 1( il. 100.000 tl _1.100,0_1'( 61.iOQ,O00 t(1). 100,000 1'( |lJ, tO0,O40 T(9). |OO,O_ t( tOf tOO,NOT(|l), |O0,OOO T( lJ),, |00,000
111E• lO0,O0000TIE _ • 0.98808 NO,OF_ ,, 41
• IMtl:Imk'l_l)ilk1' _t _TDImllN,IPt t_t_.rt_El:
ltO_(;t[l) 1_.:I ClWitCtI_ 0,:1E@IAP_:O _I,0 III_IATI_ 0,,,0IC I&_ t_._ LetLOAD 0.=
Ul.llg 0.0 Ut.lt_ 0,0
_/¢.t II[O_IOMl)l_+_:It 0.00_ III. II[¢I_II)Il_tlt 0.0_)0IM/tl[¢tlmPlml+_tlt_mFt¢ if= I_._M_ T(|), I_._S T( $)1132.831 Y( 4|* 116._8 T( 91. 10_.0_7
r_ T( 6), 10_.7]1 t(7). |Oi._l_ tl 0), 100.668 t(9), lO0._i: T(10)- lO0.O0!T( 11),,100.000 1'(I:H. iO0,O00
tiie ,,, _O0.OOOO0YI_ ST[P. l.Oil4tt Ill. OF"_ -+ I_
. IXtml_'l[OXl_t NextI_'AmIII_I,'I_,IPT l_/_,e't,-IEC
Cl]M_CT_I) Oi.O CO_qtC'_ t._m)tkTi[_ i2.9 il_tk'l'_ 0.2ILrrLOAD 67,+ lETLOAI_ l,l
67,2 6TmEI) l.l9_11_ 0.0 ll_.lllt_ 0.0+t_[C'ID 0.0 klMtC_ 0.0
iet <,7,_ TI_.142t 1.1
+ llUlltkt.Ell['!:e:l_tOilI)l_+qlP,_ O.O0000IM. _CI[_ION_ 0.00000IMl['_
:+ l'lN_ll,q£ B ft( II, 4Nt.PJS T( 2)- 423.S1| t( 31._._!4 T( 4It |ll._0 T( Ill* I_.?SI
i * T( _)- 1_.'/9/ 1'17)=119.560 1'18). 110.070 'r| _}..104._._ 1'110)-100.(_: T( ill. lO0,O_O tl I_)= lO0,O_l"t
; 4
I.
_ Table 6,2 (Continued) '1,
+ + + .>+ , + .... .... e:+:.e :.. ....o ,, +. +... +...o, o ..to, +_' ",". ..... '+' + .... - J+'-_o..' "'_ + +-. _ .+_+ . , • :.
00000002-TSD05
ORIGINALPA_ I_
TIE • :100.00000.... 1'11__ ,, 0,1_rJ NO._ _ • 1_t4 OF POOR(_UALITY
Im'ltOilk_OIf._T H_'r_J;
aON_TEI) 91|.4 ¢ONVEGI'_ _1,|WZA_ 105.4 It_tA_ 1.9
' I1 LO_ _07,0 I1 UI_ 1,4filMS) QOT,0 titomm t.4Ul.lm 0,0 UI.IIE0 0,0M)_t¢_D 0.0 A0_.Cl_ O+0Ie_ Met mP.O 1_ _C 1,4
n%trl'Al,lClt 0.o0000IN, IIt_gXOM_tE 0.00000INIE¢IEi$1_IAII_IEW I_1( I)+,IOtQ.YM T(Q), 9_6.5..q8 T( _1, 71_.617 T( 4)- bOQ.946 T( 5)t 4_I._130
t 11 6)t 3:1_.3_ T( 7)*,P,_._'_/9 Tt 1_)"iM.31_I T( 9)" i3_.1_ T(i0), i00,_i1(it). i0¢._1 T(I_), iO0,O_+
.,+ t_ * ¢0.00000 T_I£_1"0', 0.4_+4 NO.OF_l_ • i_
l_ 14tAt IEATIIA_ll1+J/_.F"r II_I_,FT.-91tC
.?
; (_Ie,'EC/I_ _.i ¢_11_C11_ 4.0MI)XAI_ _1_._ IP_IA11_ 3.9
++ lit LO_ _09.Q I£I"LOAD 0.6'_ _t_ _0_,Q _ 0.6._ _lil.tl_ 0,0 tl_tl_O 0.0
AMCIlm 0.0 kMC_ 0.0'1_ MET 303._ Tt$lit 0.6
it_U_M:_itECmtmtm
n_I_I_IA_UnE_ Ir11 i)-IQ_.S79 11 +),I_?.M9 'Y¢:_),+110_._91 tt 4),, 9_.001 11 _),+|IQ.6MJT( 61,_,_7 T( ?),,_4._i T( 81. _.9_ 1( ,_)t247.868 1'(tO|,,t0_.293T(ii), iO_.l_i6 1(iQ), iO0.2_Q
+ Table 6.2 (Continued)
•' 140 ,
I;
lillE., ?00,M000 TI_ _ • 0,99474 H0,OF_ • 396 ORIGIHALP/_'_; _:_'''OF pOORQU/_LI'F'_'
'+ IMmOIm'i_HUf WTnATeOiI'rUIN._ tiYV_,_-fWC
!_3e,Ko'rl_ l_._ _M,_¢l'ltO D,7 : "AADIAt_ IBm.6 WIAI'EO 4.9le?LOAD E_'MI M[?LOAI) 0.(I
_ _ 4t?.S el'l_nO o,0MLIm O.O lP.afl.lMO 0.0kl_c'r_ 0,0 _II_CI'I_ 0.0
8UI_A¢_IIE¢[SgIONDIB'I'AN_0.00000IN. ItECEBGIONRk'flK 0.00000IH/ECT[N_AAI't,m[O_F'
ii T( 1),1407.9M ?l 3)'1304.39'/ ?( $)mlPJ6.iq6 T( 4),,11_3.1_J ?! 9), IN9,4i9. T( 6},MI.IH 1'17)t t_Y.l_| 71 II), O_i._I T( 9)" 3_9.20_ T( I0)=l_3.m
?_i_l, 112,360 i't 13}-109.3'/'/
TIlE• OOO.O0000TINtet_ -' O.tMg_t NO.OF_ • 40i"!
Ik'TI_ATEOif.AT I.KAT_1_9
?iP,AOfAi'd_ |iOO._} AA_MfT_D _.6 : +
LOAD the.'1.0 lit LO_ _.i '8TONG) s6a.e S'ftm_ LIUI.Ilt_ 0.0 MI.ItED 0.O"_t+Ct_) 0.0 kM:Cl_ 0.0 +11qnFf M3.O 1_ NST _t.t _:
;,
U_'AC(AECI_IIOM. !iDIe, ICE O.OOMOIn. _e_lOa AA_ 0.00000lW_C ,_mef_ omFT( 11,,1750._3! TI |)*IT00._P_ Tt 31.J_W.36_ T( 41.1966.F/6 ?( _}.ilgl.idr/t( 61.100_,413 ?( 7)=8t8.0T/ ?( 81=614.490 T( 9l. 3_/.930 T( SOl.130.607 '+1(It), Siq.7"J7 1'¢1_), Ill.103
5i
Table 0.2 (Conl:tt_ued)1
142 I
;++'++-+............ *"++ ":" ' 00000002-TSD08
i
. _ c-+,-, r.TIM• qM,MO00 tie StEP• 0,6gt35 NO,OF6?_B,, 600 ORIGONf_I.P_,,.;..,t..[,._OF POORQUALIT'I'
IMU_A__A? If.AtRAI_OI_ILM OtU_O.F?-6_
i
tt_lA_ 3M3,0 RADIA_D l_,Oit LOAD tit.O _ LOAD 0,9
•, . li0nfi m,e OoqdUeLINg) O,O eUliLIm 0,0i_¢_ 0.0 ililO'lii 0,0lit Ill? ?il.t iliait O.it
OUItA{Itlll!tt9llOlt?l 0.00000IN, IIOH RAI 0.00000i_t¢
_, 11gen_AMloeaFtl ll,10ll.l@ li l),lt03.td_ l¢ l),llill.il ti l),i711.fti9 t( Si,ISII.IIIS
' ?( 61.1347,t65 ?l tl-ll_,OlO ?( II. 6M,I73 ?( II. 13,tl t( tot, t43,943• 'f( lt}, III.IH T( lilt+ 1111.699
i,
' Ill • IMO,OOOO0TiMllil t • O.lil i. OFl • 74t
m_A_O HEAt EAT_lilWlll.ll illlltt.fl-dec
ClCl _it.3 COmPel 8_,4I_IA_I) 9ttO.t AAOIA_I) 19.7 iO_tIOAD 7_.7 Mt I.OAO O.t :gtOl_D _.7 _tOl_O 0,7IUHLIIO 0,0 _i_ 0,0Ai_EC_I) 0,0 k1_¢11_ 0,0
Pit flit,7 _ lit 0.7
:+ Ollltll_ 0.00000IN. _IUN lille O.OOllO0IW_
: T( tl_1011.!l_i ?1 t).10t3.lltl T( 3i.it!7.971 t( 4),1?411.4M ?( SI.i_tl.306tl _l.Iilot.Pr_l It ti,+til_,4m'# tili. i'al.l_s tiii. Idll.B ti 10i. t+0.1_II lti. tt,0li li ill. llii.ill
TIM• ilI.MMO TIH£S_P• O.OiJili7 NO.OF6T_ ,i l +_if
+,( i
i ,
Table e.2 (Continued) '.+
14+ ::i,+
t,L,. ' D,_,+<o,>..+,,+;:<>-?;,o?--+..:.:+,.-.:;.....-o..+%.:++'+/.._',y,<_,o-',,+?.._,,, . o.+;.,_,+._,,,++:.,.,o..+,.,;..._;+.'.._,,.,,O,;o+.,,._//.,',>-L,>":_"-.,.o;.:.. :;.o<_+,.+o+:,,W:;..,+,;7o;_;7.-;;;;::/'?,i,,_;',+!'+-y:,_',*__._...........
00000002-TSD09
," ORI-Glli'.lhL'""_!i" OF POOR QUALri'_,, OOH',K{_I) ?m,4 {O_C_ 11,6+r IIk0ik_0 611_l,t WIAT'_O |11.0_.. [r LOkD moll t? LDAO -0°4_ O?011_ eoe,tt 6lOn_ -0.4++ o.o o.oqj_p.+_ _ilW_ 0,0 +tlMCID 0,0-_, ll,e[1'. m,s 1_ _ ,.0.4
_ Stl_ActaEctmsloM*. 0181'_[ 0.0_00fM, _Cmlllt IIA_ 0.0el_ IM/iEt+
++ 11mPl_ATUa[NOF-' ?( t1,1874.701} T( {I),11_,0?4 T( JI,I?/I.4M T( 4),,t6_3.M} T( l_}*lSl|+_Je:9:: l¢ 6)0131}|.N0 ?! 7).111_.I_1 ?i |). _0.004 T(g), I_I}.531 ?( 10}-I??.?N] T( Ill. t?_,&37 ?( RI. t37.4_,e
._,_
-r,
_r: i l_ " Ut¢O'O0000 ?I_ _ • 0.0/_'J HO.OF_ • lOlO
INI'EUiIA_OIf.AT HUTHATEd011_I_.FT a11#SII.FT-aEC
?
_C11_ 8_,0 ¢tl_cr_ 6,8UOIATI_ 7521.9 II_IAT_ 7,4
i ff IJ3AI} 773,1 tf LOAO -0.677S.t _ ..O,b
_.+ _l.tl_ 0.0 MI,II_ 0.0+ _tl)_C'll$ 0.0 _ll_ltO 0.0
lt__ rgJ.i ll_ 14tY "_.6
,+ WIFAL'(Itlt_gSI0_Hgl'AIG 0.00O00Iit. meCtBSlOliliATt 0.00000IM/_+
, T( I)*I_t_6.33_ ?{ |),,1610+_10 T( 3).II_.443 1'1 4},14_.1_4 T{ _)=t,_lt.00'J,_'+ 1( 6l-lldtl.IM_ .?( 7).gYT.00Y 1'¢ 0}-?0"/,057 t¢ 91. _?._tl, T( !01,_10h5t4i: 1+(11)=189,900 ?( 1|)= 149.606
%>
=_!} ?tl_, l:100.00000?ill _ • 0.00_2+ 140.OF_, ttt_
+_,t. i_l_.l_ 011#BQ.F'f-H_b__ i_It41tC1_ 8_t.6 P,l_l'd) 3.:t
P.AI)IA11_ 0071.3 I_Al)lA11d) 3.9. El' LOAD 714.3 lit LOAD -0.6
8111_' 714.3 _ ,,.0.6++t,:*
i_ :
• _ (Continued)Table6.2i44
:_i%_-.:_:/_;+-'"._ +_:.:. +:,_o-:......_-.:-+;-_++-:,.,+.-o-+..-+-+;+o- .._..,. ........ :.--..... .-_ o ...... + ..-.,,..,..,,++. + +w.-+........ :::+ot_,+..+,_a+:._+z_:"+++':"*+:°++'+_+" :°+:°++' :::+_'+*'":+:" "++"_++: .... '..... ....... 00000002-TSDI0
ORIGINAL '_"UF_,EIIECSII_ OF..POORQUALITY_¿_CI_ 0,_ I,, Irf_l_RAT[ O,00000iM/UC_AfUK B r're IIfl_(I,0,HI I'1 ll.lW,qP6l Yi _11.1149,4111t'ri 4jtll?ih469 11 _,ltl0?q),_fl All9M,_ T( 71'm,_l YI Of"149,906 t( q)* 41_,_6 YI Ill. lt00,m I'I{ Ill. lff,dt_9 1'(Ill. 16h?01
e
TIN[• S400+_O0TPE_ • 0,t_9 NO,OF6TEPB• 11q4
..., I_tN,rr lJ_/N,ry-_
,: ClWIOC'RO _11M,6 _16'f.C'11_ 0,9, ItAItlAlt) IlS4+.O IIAI)IA11_) 1.7
u_r_ _2.8 N_L0_ -0.8_4_.0 81m[0 ,.0.8i mum, o.o u.,,. o.o,, o.o o.o),
mm .+.n ms -o.a
ml'MCl[ 0.ll000Oll,. II[l:li_XmIIA'Ili 0.0q)0_0Ili/ft[¢
11 II. _4_1_6 1'1 |1* 990.1148 11 _ll,961.200 I'1 41"91:h690 T( SItItl47.t1_T( 618 ?_+097 1+(7) s 658.0_| T(O) s _J_.607 T(9) • _J8_.91_ T( lOl= J06._J06 !T( ltl. F_.lil _ T( 1_t1.17_.649
I_ITIAL_ • _t._707 (LIh_N.t_.)
®!
MIIIUqT"m,_'f_ OFN..?0'/_16[XCI:I:I_AT_ I0
l_tl_ Tltll_i11Jl[I_ _I..707S,-TiF..XCEOI_ATII_ i0
I_II+UI+_11JI_ OF_.707S",T6_ AT_ I!
IMIIlUlI'I_HPI_qA'IIJ[Iie_,,'_FT6 UW[I_I)AT_ II
_!':: Table 6.2 (Concluded)
+, .,, l
+_+ '+ i
_+_ _ _' "' _" + _1;11 _ " ' + '1 '_ ' ' ' : _p _ ? ' " + " + " .+ " ", ' _ m 1" " + . ' ' "0 ' ' + ...... . " " +' + " ++ ......... " , _++ ' _'d + " . + +" + . + + _ .... ++__ +'_'+ --, V ....... _'_ "+ _=_.._.+, :.,., .:.,. _.+ ., _;+..:<+,i.o ,, o_.,+.,o..: _+...,_+,:.++++..,+,+.o_._,. _+o.::.:_ ,+._.:. 0: ...... ,,+. , c ..... ,, .......
00000002-TBD1]
hotion _.0 OF POOR QUALI'I_. I
, ;NI_LUSlONS AND U/X)M_NDATIONS
TILl gilTS sods is an lntezsotive ass dtmoaStoul thermal snalysis tool
which hal the capability to nodal s iatie variety of seroJpaoo thotmostruotur¢|
with t minimum mount of of tort on the part of the aMlyst. The oode t8 u'sad in
eo_unotion with the LkNM_ code which ptoduoes the e_iroR,nents and Is linked
tO the l_,I'I_8 code nslnl an OutpUt file, The ability tO state data desctlbln8
the strnetuzs and the ability to a0ees¢ a_y number of s_lto_nent files, allows
the user to make parumet_to studies usint ration| ttajsetosies and TP_ struotu_e
tFpes, t_adint thermal porte,manse and weijht.
The p_esent pressure's eapabilities allow the analyst _o investigate matq_ of
the ou_rent and envisioned TI_ st_uotnres, llowevet, limitations do exist as
_, every oaudldste structure type oould not be asitlolpated. In vlsg of this, in
effo_t was made to allow ohaslies, modifioations, and additions to be Jtade with it _ i• |
minimum Of repr0itmmim8 effo_t. AddittoM1 oapabtlit7 san be added to live the
user a mo:ee versatile tool b_ inootporatin8 the tollowini teeo_endlttons.
l, Add the otpabtli_7 to inolnde addttioM1 typos of bOUndary oor_itiotL8on the biokwall, l_esently an adiabatio boundarF il issued, gnowntemperature and kslown heat flux should be added.
2. Loiio should _e added to automatioally ohanie a slab st_otu_re type tOa thin tT_e i_ the oomputed time step is too smile,. P_esently, ihaUSer •_uSt make this ohanie.
9. Add 1o8io that would allow heat flux on the 8u_ftoe to be oompotedliven the temperature history of a the_mooouple placed qtthin theSttUet_e,
i
i 4, Inol_de I T_ stains tontine to autouatloally optimise the struoturel 8ivesl tempe_at_e, weight and east oonlttaillt8.
i: S. Add additional touti_8 fat oosputl_¢ equivalent thetatl oouduotanoe, • .: capioitanoe, and wetiht for additlo_l structure types e. i, hot see-
tiou sttiuier-pin61 ate.
_. Add loii_ _hioh sill allow all ablation material to be removed ' '_Presently the s_faoe node must remain in the ablation _atatial,
_...._v;l_,_;_:___,_., .... _ ._,,_*,"_,_,_;t'¢_,_:_1_._?--_'T_;¢___,_._,_ | ...... '........ _ ............. 1
00000002-TSD12
• AddLt|oul etudies n_e _e©osmo_dedto lend oonfidenoo to the soooeio_ Of
the effeotivo Chotmel eondQots_ee olloolitioni of the vatioui it_otufe ty_et, ,,
. Compselio_ gith ezpo_Lmo_tel or test d|ti vou|d be _ut_e useful in detotmfaini
the do_endo_oe of t_e _cneQotinoe no i funotion o_ tenpetitute level, tempoeJ-
t_ro differenoe, Joint oz oonta4t eonduotsnoe 4nd material properties,
3'J_ ¢ "
_:! 147 "l
it."-_.
00000002-TSD] 3
ORIQINALPAQEPROGRAMMAIN OF POOR QUALITYC EXITS CODE
0 EXPLICII' INTERACTIVETHERMALSTRUCTUf.E$CODEC
" O REMTECHINO. 1963C BY J, PONDC C, SCHMITZO PH. 20F-536-8581
" CPARAMETER(NMB1"208 NMB2=6_NMB3=3,NMB4=8,NIVBS..4O,NMB6=IO,NMBI O"1003
C NMB1 - MAXNUMBERBODYPOINTSC NMB2 - MAXNUMBERLAYERS/BODYPOINTC NMB3 - MAXNUMBERMATERIALS/LAYERC NMB4 - MAXNUMBERDIMENSIONS/LAYERC NMB_ - MAXNUMBERCONDUCTORS/NODESO NMB6 - MAXNUMBERMATERIALSUSEDO NMB7 - LAR(_ESTMATERIALNUMBERC NMB8 - MAXNUMBERMATERIALPROPERTYTABLESSTOREDC ((4_NMB6)+1.)0 NMB9 - SIZE OF MONOVARIATEMATERIALPROPERTYTABLESARRAYC ((MAX TABLEENTRIES)_2+I)C NMBIO- MAXNUMBERTIMES FORMINIVER ENVIRONMENTTABLE
'.i C NMB11- SIZE OF BIVAI:I:IATEMATERIALPROPERTYTABLEARRAY(21_)DIM)C (MAXNUMBEROF TEMPERATURES)
i.. C NMB12- SIZE OF BIVARIATEMATERIALPROPERTYTABLEARRAY(3RODIM)C ((MAX HUMBEROF PRESSURES) 8÷@�˜�`�8�"*C
: COMMON/ENVIR/TM1(NMB1O)DHC1(NMB1O),HAW1(NMB10),PRESl(NMB1O) _COMMON/GAP/T1,T2,_TH1, TH2,TH3,TH,P,H,_M1,M2,M3,TOL,BET,SIG,XM, "
$ CAP/,CAP2,XKCOMMON/INIT/TST/_J_T,TSTOP_T IMPT,DTIMeNBPeNEXTjMETRI0,
. $ METRIK, METRIX, NSTPpIPFLAG_TINI(NMBI)_SINKT(NMBI)_XFIJ (NMBI)_.. $ MBP(NMBI)e I IN, I IN2COMMON/TAX/TK(NMB2),XX(NMB_;)
t_ ! COMMON/T1ME/NNbS,CONV,CRAD,STAB,ISBFG_NODSCOMMON/ARA/T(NMBS),TO(NMBS),0(NMB5),OD(NMB_)_,IG'C)(NMB_),L(NMBS,2)
r _ COMiONILD/LS(NMB1,NMB2),XP(NMBI,NMB2_NMB4)_MATS(NMB1,NMB2,NMB3)_!: " $ NS(NMB1)
i i COMMON/ NOOES/NN,I ,'IT, T INIT_TSINKDFI J, TMPMAX(NMB6)COMMON/CTMP/T_,DTSMCOMMON/OAO/NEXFG,NIT_XMA$
i COMI_N/PI CT/NNI S(NMB1,NMB2)_. i COMMON/'SUBLWTSUB_XL_XLP,EXCHT,NAB,ISTAR,NDIV, I AB,EXCHSVbQADV
$ OADVs,v, lUoPi . OOI_40NITITLEIGHAR2,OHARI,FNAMJ,FNAM3
_}._; ' COMMON/PRESS/PRES[I' :* OOIVlI_)N/SAVEIXENDI pXEND2,XTSTt,XTST2,XLTS,XMIN_: _. DIMENSION TTT(NMBS),ZXX(NMBS),FLGG(NMBSeNMB3,2)I|__, CHARACTER_13CHAR1(NMB6)_. : " CHARAOTER_20FNAMI,FNAM_H :' CHARACTER*IOCHAR2(NI_6)
II_HI: INT_(_ERIIN5 FLG(NMBS)if' IIN2"5lt:_' CF_=.24
. ._:=:'-._.................................. _=_ = - ............... --____.A22_:_ _=im.=" -:- S-:-:-!-.......... ."2 -i..... 2. i i./1-2_2...................
O0000002-TSE02
! Sle-•1"/14E-.B/3600.O11"1000,0
C DETERMINI_INITIAl. (X)NDITION$AND$_UCTUREFORALL BOI:LYPOINTSCALL INPGEOiVRITEt_9, 720)TSTARTeTSTOP,TIMPTWRITE19,722)DTI M,ST/e_TOL,BET , _!NRITE(9_?2_)_P, NEXT_NSTP,IPFLABDO8000 I-lmNBPI/_'0NDIV-4.
ISTAR=O OHI(_II_PLLP/_E _TINIT=TINI'(I )TSINKmSINKT( I ) OF POOR QUALITYFIJ=XFIJ(I)
C FIND PROPERTIESOF MATERIALSCALLDATA1
C FIND MINIVER ENVIRON_NTFORBODYPOINTCALL DATA2(MBP(I ) )NN=NS(I )xx(1)-o.o
_, XMAS=O.OO bETERMINENODALNETI_ORK
CALL NODEMP=I
_" C DRAWPIC'tlJRE(INCLUDIN(_NODES)I_OROUTPUTFILECALL PICTUR(9, I)I SSF(3*O
•. DO43fi IK=I ,NNIF (LS( I _IK) ,EQo6)I SBFG'I
455 CONTINUETIM=TSTARTD?-O.ONCTRL'O
-- NIT=ONPR=ONPFG=IISV*IDTSM=O.ONEXFG,,ODO 140 K=I pNNDSC(K)-O.OFLG(K)-(1H )
140 CONTINUEDO 141 K-lpNCDSCD(K)..O.O
141 CONI'INUEWRITE(g_749)QCONV"O.OQRAD-O.OQNETmO.O
• QSTOR'O.0QSUB-O.OEXCHSV-O.OEXCHT=O.O
-: QTOT-O.O
A-2
O0000002-TSE03
$ v IN.V_T51jtRECESSION RATEt,Flt.5,1 IN/SECt )ZZt =XX( t )'12,0*2.54 OF POOR QUALI'|'VZZ2=RECR*J2,0_2.54IF(METRIK.EQ.1)WRITE(g,605) ZZl ,ZZ2
605 FORI_T(lXutSURFACEREOESSlONtw/_v DISTANOEteFtl,5,$ _ CM.t,T_RE_S$10N RATEtjFll_w t CM/SEOI) ' ,,DO2000 INC3"lwNCD$N1"L( INC3w1)N2"L( INC3p2) 'F(METRIK. E_.O)TI"r(N1 )=T(NI )-459.6F(METRIK.EQ,O)TTT(N2)-T(N2)-45g.6F(NETRIK.EQ.1)TTT(N1)-T(N1 )/1.8F(METRIKoEOo1)TTT(N2),,T(N2)/1 °8F(LS(I,ICO(INC:_)).EQ°7)GO TO 2000F(MATS(Ip ICD(INC])_I )oEQ°O)GOTO 11
C FLAGSFGRMAXIMIMTEMPERATUREOF MATERIALSI F(T (N1)oGT°TMPMAX(MATS(Ip ICO(INC]), 1) ))FLGG(NI_1_1)=1I F(T (N1). GT.TMPMAX(MATS( I• ICD( INC]), i ) ) }FLG(N1)=IH_*
11 IF(MATS(I, ICD(INC])_])°EQ.O)GO TO 12IF(T (N1) °GT.TMPMAX(MATS( I• ICD(INC]) ,] ) ) )FLGG(N1_, 1)=1;F(T',N1) .GT,TMPMAX(MATS( I_ ICD( INC._)_]) ) )FLG(N1)=IH_*
12 IF(MAT$(I,ICD(INC])_2).EQ.O)GO TO 15*. IF(T (N2). GT.TMPMAX(MATS( I, ICD( INC]) p2) ) )FLGG(N2,2_1)-1
IF(T (N2) .GT,TMPMAX(MATS( I pICD( I NC]_),2} ) )FLG(N2)=IH*15 IP(HATS(I_ICD(INC]),]),EQ.O)GO TO 14
I F(T (N2). GT.TMPMAX(MATS( I, I CD(I NC])p]) ) )FLGG(N2_],2) =1I F(T (N2) .GT.TMPMAX(MATS( I _ ICD(I NC3),3) ) )FLG(N2)=1H_
14 CONTINUE2000 CONTINUE
I F(METRIK.EQ.O)WRITE(9,?14)I F(METRIK.EO. 1)WRtTE(9,715)
714 FORMAT(1X,ITEHPERATUREDEGFt)715 FORMAT(1X,VTEMPERATUREDEGKv)
WRITE(9,711 ) (JJ,TTr(J J) •FLG(JJ), JJ=l, NND$)IF(LS(I,1).NE,7)GO TO 499DO2020 I R1=1, NNDSIF(METRIK°EQ.O)ZXX( IR1)-XX( IRI )_12,0I F(METRIK.EO,1)ZXX(IR1)-XX (IR1),12°0_2._4
2020 CONTINUEI F(METRIK.EQ.O)WRITE(9,716)I F(METRIK.EO.1)WRITE(g,717)
716 FORMAT(lX_VNODEPOSITION INCHESt)111 FORNAT(1X_tNODEPOSITIONCMt)
WRITE(9_726) (JJ, ZXX(JJ), JJ=t, NkC)S)i 49g CONTINUE
IF(IPFLAG.EQ.1)GO TO 500DO2021 IRt'I_NCDSIF (METRIK. EQ.O)ZXX(I R1)=CO(I R1)IF(METRIK.EQ.1)ZXX( IR1)=CD(IR1)_1899.0
2021 CONTINUEIF(METRIK.EQ.O)WRITE(9_'/18)I F(METRIK.EQ.1)WRITE(9_719)
"/18 FORMAT(IX_CONDUCTORSBTU/SEC-DEGF_)_ "/19 FORMAT(IX_tCONDUCTORSWATTS/DEGK*)i WRITE(9,71]) (JJ_ZXX(JJ)_JJ=l _NCDS)
A-4
O0000002-TSE05
DO2022 IR1=I,NNDSIF(METRIK. EQ.O)ZXX(I R1)-C( IR1)IF(METRIK.EQ.1)ZXX(IR1)-_( IR1)_1899.0 ORIG;t_/_, I/_L. d_:'_
2022 CONTINUE OF POOR QUALI'I_f' IF(METRIK.EQ.O)WRITE(ge727)
I F(METRI K.EO.1)WRITE(g_728)727 FORMAT(IX,oOAPACITOR$BTU/DEGFt )728 FORMAT(IX,_CAPA¢ITORSJOULES/DEGKe)
- WRITE(9,712) (JJ,ZXX(JJ), JJ,,1,NNDS)P00 CONTINUE
NPR-NPR+INPFG-O
501 CONTINUEMATkMATS( I, 1,1 )CALLHEATN(TIM_HC,HAW_PRES,ISV)CALL PROP(TO( 1) pPRES,MATjRO,CP_XK,EP)CRAD=SIGJEP*FIJ * (TO( 1)¢ *2+TSI NK**2)* (TO(1)+TSINK)IF(LS(I_I).NE.?)GO TO P02
C IF ABLATORSUBLIMERTHENDETERMINETEMPERATUREOF SUBLIMATIONANDC HEATOF SU_LIIVd_TION
CALLSUBPR(PRES_1iT,SUB)CALL SUBPR(PRES,2_XL)
: IF(TIM.LE, O,O)XLP=XLP02 CONTINUE
' TNV=HNV/CR_CONV=CR_q.lC
:_' IF (NEXT_(NIT/NEXT)6EQ,_NIT) NEXFG=|IF(NEXFG,NE.1)_ TO 466
C FIND CAPAC!TORANbCONDUCTORVALUESCALLCOMPOC
466 CONTINUEC DETERMINETIME STEP
: CALL TMSTEP(DTSM,I)TMPTt=TIM-TSTARTTTEMP-TMPTt+DTSMPTIM=FLOAT(NPR)_TI MPTIF(TTEMP=LToPTIM)GOTO :36.=DTSM!PTI_-TMPT1NEXFG=INPF_.I
365 CONTINUEC COMPUTETEMPERATURES
CALLOOMTMPJJ=ICO(1)JN-LS(leJJ)
' IF(JN.NE.7)O0 TO 366TMSV,,TIM
C FIND RECESSIONDISTANCECALLABSUB(1)
_- , IF(IDROP.EQ.O)GOTO 3659DO36PB JIL-14,NMB5
3658 FLG(JIL),,0o03659 CONTINUE
NEXFG=I366 CONTINUE I
A-S
O0000002-TSE06
:5
; "_ C Ilmm_=Bl=_mol_lmllluwf_lBImD_m_mmn_m_D_m_m_wDm_m_t_m_lwmw_m_mW_ j
'-.'_ C INTEGRATEHEATLOADS' Qpo.o•., QAD_QAD+QADV
QCONV=OCONV_DTSM*(T_-TO (1) )*CONVQRAD=QRAD+DTSM*(TO( 1)-T$ INK)_CRAD
QCOR=(T/_-TO(I ) )*CONV ORIGINAL P_C_ E_:QR/_=(TO(1) -TS INK] *CRAb_': ONER=OCOR-QRhR OF POOR QUALITY:_ , DO492 JJ=1_NNDS
QO=QO+(T(JJ]-TO(JJ))_tC(JJ)TO(JJ]=T(JJ)
!: 492 CONTINUEQNETmOCONV-QRADOSTOR=OSTOR*O0OSUB=OSUB+EX_T-QADV
: OTOT=OSTOR+OSUB+QAD
:%, C
i_ C TIME STEPi_, T IM=T!_rI-DTSN;_ C ...............................................................
C FIND HEATRATES_t QADR=QADV/DTSM., QSTR=OO/DTSM, QSUR=EXCHT/DTSM-QADR
QTOR=QSTR+QSUR+QADRiRECI_:=(XX( I ) -XXSV) / (T IM-TMPSV)
NIT=NIT+t_ IF(NIT.GE.NSTP)GO TO 8000
IF (METRIK.EQ,O)WRITE(9_7P2)XHAS
!,_ _RITE(9,'/60)IF(METRIK.EQ.1)_RITE(9,7,3)XMAS2.., 760 FORMAT(_Io).-_ DO_000 NDSJ=I,NODS
NDI=L(NDSJ,1 ):_' ND2=L(NDS1_2)
i_ IF(MATS(I, ICO(NDS1),1 ) .EQ.O)C_ TO 770
ii_ IF(FLGG(NDI_1,1 ) .EQ.1)_RITE(9,761)CHAR2(MATS(I, ICD(ND51) _1) ),NDJ• "170 IF(MATS(I_ICD(NDS1)_).EQ.O)GO TO 771
IF(FLGG(NDI_._1).EQ.J )_RITE (9_761)CHAR2(MATS(I_ ICD(NDS1),_))_ND1::; "/71 IF(NATS(I,ICO(NDS1)_.2).EQ.O)GO TO 772i _ IF (FLG(_(ND2,2_1] .EQ.1 )WRITE(g_761)CHAR2(MATS(I_ ICD(NDS1)_2] ),NO2
I F(FLGG(ND2__2).EQ.1 )WRITE19,761]CHAR2(NATS(I_ ICD(NDS11_._)),NO2761 FORNAT(/,lXeONAXIMUMTEMPERATUREOF eeAlO, ° EXCEEDEDAT NODEo,
$ I:_) ,,773 CONTINUE:_000 CONTINUE8000 CONTINUE
!!.":i "/11 FORHAT((5(3HT(_ 13, 2H)=,FO.3,2X, At,4X_=)))
A-6
'" ° " _ °"'_ 00000002 TSE07
i ",/'1 / '"'ORIG;gN,_,Ll, _,_,,,!:OF POOR QU/_Li'w/
SI/BROUTINE_$UB( II)O SUBROUTINETO COMRJTERECESSIONRATE OF ABLATOR AND ALSOC THE HEAT REQUIREDTO CAUSE"file MELTLINE TO REC_OE.
PARA_TER (NNB1-20_NMB2-6,NMB}m:SwNMB4-(twNI_Pm40)NHB6"IO)COMIC)N/INIT/TST_Tt TSTOPpTIMPT,DTIM,_Pe NEXT,METEI C,
$ MI:TRIK, METEIX_NSTP,IPFLAB,TINI (N_t) pSlNKT(NMB1) ,XFIJ (MVB1),$ IvBP(NMB1) _I IN, I IN2COMMON/SUBLM/TS_XLpXLPpEXCHI,NAB,ISTAR,NDIV, IABtEXCHSV_QADV,
$ {)ADVS,TMSVpID_OPCOMMON/TIME/NIaCIn'J4,CONVwCRAD_BT_, I SBFOeNCDSCOMMON/ARA/T(NMB5) eTO(NMB5)_C(NMB5), OD(NMB5), IOD(N_ ) j L(NMB_i,,2)COMMON/LD/LS( NMB1, NMB2)oXP(NIV81j NMB2oNMB4) pMATS(NMB1eN_2 j N_3 )
$ NS(NMBJ)COMMON/TAX/TK(NMB2)_XX(NMB_)COMMON/NODES/NNpI, TTwTINIT, TSINK_FI JbTMPMAX(NMB5)COMMON/P1CT/NNI S(NMB1_NMB2)COMMON/PRESS/PRESCOMMON/SAVE/XEND1, XEND2,XTST1,XTST2_XLT$,XMINCOMMON/TITLE/CHAR2_CHARt,FNAM1_FNAM_CHARACTER*I0 CHAR2(NMB6)CHARACTER*I._CHAR1(NMB6)CHARACTER*20FNAM1,FNAM}DIMENSIONZXX(NMBS)IF(NAB.EQ.O) O0 TO 1000JJ=IOD(I I)I IPI=I I+1JJPI=IOD(I IPi)DIVmFLOAT(NDIV)JN%S(I_JJ)NlmL(I 1,1)N2=L(I I_2)NS=L(I IP1,2)MA=MATS( I _JJ_1)
C COMPUTERECESSION 01STANCEOAOvs=o vCALLPROP(TT_PRE$_HA_RO,CP,XK_EP)DS=EXCHT/(XLP*RO)EXCHSV=EXCHTI_0_0IF(ISTAR.NE.O)O0 TO _5_ISTAR=1
C COMPUTENODEBOUNDARIESXENDlm(XX(N2)+XX(N1) )/2.0XEND2"(XX(I_5)+XX(N2))/2.0XMIN'XEND1/DI V
P5P CONTINUEC MOVENODELOCATIONS
XX(N1)=XX(N1)+DS ,,.XX(N2)=XX(N2)+OS/3.0XP( I _Jd_1)=XP( I_JJ_1)"DSXTST1mXENDI"XX (N4)XTST2-2.O*DS/5o0XLTS"XX(N2) -XX(N1)IF(XLTS.GT°XMIN)GOTO 560XTST2=XEND2-XEND1
; A.8
i
',_:_J_,_:_.;,:" ?:_;,_-_-_;:_ ,.,__;_,_.,, ,._._,_..,"_'_' _ __"c',._,.- ,._e_,. _. _-_:_:.- _-..... _ ..!,,_::c ...... _ _ '_ ..... ?' . "2, ;'_.,_ _" ,= :i _, o /
.......':" ............. ' "............................ O0000002-TSEO9
. ) i'v
• t I t
IORO_I ORIGINAL Pt_CU _.'_560 CONTINUE OF POOR QUALITY
XENOI-XENDI+XTgT2O COMPUTEEFFECTIVEHEATOF ABLATION
, _IMEL=ROa(XLP_XTgT1+XLtXT_IT2+P.,PwXTST2i (TSUB-TO(N2) ) )XLP=QMEL/(ROe(XTST1+XTST2) ) ._
O COMPUTE_VE_ED HEAT_tAbV,,RO_P_XTST2*(TSUB-TO.(N2))IF(IDROP,EQ,I)GO TO 520
' GOTO 1000•", _20 CONTINUE: C RENU_ERNODESIF NODEDROPPED
NND$,,N_S-1NCD$-NOD$-IDO 52i KK-I_)NND$IF(KK,EQ,1) GOTO 521
J ' KKPI"KK+I_' ;' XX(KK)'XX(KKP1)_. C(KK)=C(KKP1)__: TO(KK)'TO(KKP1):I T(KK}=T(KKP1)
_: 521 CONTINUE- . XEND2=(XX(N3) �¸�(N2))/2.0DO522 KK=IpNCDSIF(KK,EQ,1) GOTO 522' KKP1-KK+I
_'. Cb(KK) CD(KKP1)11
:. 522 CONTINUEWRITE(gb?O0')
- _ NNIS(I_JJ)=NNIS(I)JJ.)-I
i C PRINTcALLPICTUREPICTUR(9)OFNEWI) CONFIGURATIONI F(NCDS.E_),I )GOTO 2000=_ IF(JJ,NE, JJP1)GOTO 2000
• 1000 OONTINUE
i 700 FORMAT(1H_//)v NODEI_OPPEDFROMSUBLIIVER--/_J_LATORMODEL°)//),, GO TO 3000= 2000 CONTINUE_ WRITE( I I N2,200]))FNAM1
2003 FORMATI//jiX_tRUN STOPPEDDUETO INSUFFICIENT/_SLATIVEMATERIALt)$ t LEFT_)//pIX_IOUTPUT FILE = tpA20) :,
_ STOP_,, ._000OONTINUE 1i
II
END i
tl!
• _i
_,. ,,°-_ ' ..... _. :, _:_:_,_=,'_'_:,_:,'_, :,: '-_" 't_ 'o ,r) _L._"_' "_'S_,:--o_. 0" ,_. °, __" r_o,%'.,, ,;_° _'o'*_:.,,,_, _,,,
O0000002-TS EI0
_ (,,lttlGII_iALl-_i:l,3,i,r'v.
OF POOR QUALITY t_ SUBROUTINECOt,_
C SUBROUTINETO._OMPUTEVALUESOF THERMALCAPACITORSAND_NDUCTORSPARA_'IvER(N_I =20_NMB2-SINNB3-3pNt_4,,6_N_,=40tN_,_8-1 O)COMMON/OAO/NEX_G_NIT_XMA$¢OMMON/BAP/T1eT2jTH1pTH21TH:5eTHw_,H, M1,M2)M_I_TOL,BET_SIGwXMw
$ CAP1,CAP2pXK ' "OOMMON/TM/TK(N_2), XX(NMB_I}COMMON/TI_/NNDS, CONVeCRAD,ST_e I SBFGeNODSCOMMON/ARA/T(NMBS)_TO(NMB5)_C(N_J ), _D(NMB5),ICD(NMB5] pL(N_e2)COMMON/LD/LS(NMB1, NMB2)_XP(Nl_d1wNMB2,NMB4) wMATS(NMB1, NMB2, NMB3)
$ N$(NMB1)COMMON/NODES/NNeIeTTpTINtTgTSINK,FI JwTN_(NMB6)COMMON/PRESS/PRE$NEXFG=ODO 176 K=I, NNDSC(K)=O.O
176 CONTINUE, DO 1"/7 K=I, NODSr .it , CD(K)=O.Ot., 177 PONTINUE
DO226 I I=1j NODSJJ=ICD(I I]JN=LS(IjJJ)
.: NI=L(I I_1)N2=L(I 1,2)MA=MATS( I, JJ_1)
;,, IF(JN.E_)o6) GOTO 227I- IF(JN.EQ.1) GOTO 225 1
IF(JN.EQ.7) GOTO 225 -tGOTO 227
2_'5 CONTINUEC COMPUTECAPA(_ITANCEANDCONDUCTANCEOF SLABANDABLATORNODES i
1"I"=(TO(N1)+TO(N2) )/2,0CALLPROP(TT, PRES,MA_RO,CP,XK,EP)DI=XX(N2)-XX(N1) : .CTM=DI*ROCCP/2.0 iCMAS=DI _0 'I F(NIT. NE.O)CMAS=O,OXMAS=XMAS+CMASC(N1)=O(N1)+CTMC(N2)=C(N2)+CTMCD( I I )=XK/DIGOTO 226
227 CONTINUEC LOADGEO_TRYAND_ATERIALNUMBERSINTOCOMMON- GAP
,I: CALLLOAD(I_JJ_Nt_N2)
ITST=JN..1C COMPUTEEQUIVALENTCONDUCTIVITYANDCAPACITANCEOF ALL _C OTHERSTRUCTURES
GOTO (I,2_3_4_5),ITST1 CONTINUE
CALLRGAPGO I"_,7
2 CONTINUECALL HONEY
" A-tO
r_To7 ,,++3 C:ONTINU¢" ORIGINAL ! ,,,_+.,,,._ +1
CALL001_ OF POOR Ql.lAi.+_'a_;'GOTO7
4 OONTINUE" CALL STAND
GOTO 7 "OONTINUECALLTHINS
® 7 CONTINUEC(N1)=C(N1)+CAP1C(N2) =C(N2)+CAP2IF(NIT.NE.O)XM_'O+O
C SUMMASSOF STRUCTUREXMAS-XMA$+XMCO(I I )=XK
228 OONTINUERETURNEND
•": A-1I
ORIGINAL PAG_ I_;-_OF POOR QUALITY
S_ROUTiNE*(_OMTMPC THIS SUBROUTINEOOMPUTESTHE TEMPERATURES
PARAMETER(NMBI=20,NMB2-6,N_'3,NI_I_4"6,NMBS=40,NMBG"IO)COMMON/LD/LS( Nr431t NMB29wXP(NMB1, N_2 eNMB4|, MATS(NMB1wN_ 2_N_:_ )
$ NS(N_I )COMMON/NOOES/NN#! e11",TINI ToT$INKwFIJ_TMPM/L_(N_G)COMMON/CTMP/T_eDTSMCOMMON/TIME/NNDSeCONY_CRADpSTY, I SBFG_N()D9OOMMON/ARA/T(.NMBS)wTO(N_5) jC(NMB5) _OD(NMBS)_ICO(N_S), L(NMBS,2)COMMON/SUBLM/TSUB,XL_XLPpEXOHToN_p I STARoNDIVj IABeEXCHSVlQAOV,
$ QADVSwT_VjIDt_OPN/_-ODO456 JJ'I,NNDS
C CHECKTO SEE IF THIN SKIN SECTIONSEXIST ANYI_/HEREIN STRUCTUREtF(ISBFG.EgoO)GOTO 615
C THIN SKIN LAYERJM2=JJ-2JP2"JJ+2
.. JPI=JJ+I' JM1=JJ-1
.. _ IF(JJoEQ°NNDS)GOTO 509- _ IF(CD(JJ)._T,I,0Eg)GO TO 601i (��IF(JJ.Eg.I)GO TO 61_
599 CONTINUE: IF(CD(JM1).GT.1,0E9)GO TO G10
GOTO G1_• , 601 CONTINUE
,,- C NODE/E_OVETHIN SECTION ;,CO=C(JJ)/(C (JP1)+C( JJ) )IF(JJ.EQ°I)GO TO 602
;-_ IT=NNDS-1AI=TO(JM1)*CD(JM| )/_3=TO(JJ)*_CD(JMt)I F(JJ,Eg. IT)GO TO 605
' A2=TO(JP2)_CD(JP1)A4=TO(JJ)*CD(JP1)GOTO 461
6_ CONTINUEk2-0.0A4=O.OGOTO 461
602 CONTINUEC THIN SKIN ON SURFACE,NODE/_OVE THIN SECTION
A1=T_ %'ONV+TSINK_ADK_-TO(JJ) _CONV+TO(JJ)*CRAD
_ IF(NNDS.EQ,2)GOTO 604_=!, A4=TO(JJ)*CD(JP1).. i A2-TO(JP2)_t_D(JPI):_ GOTO 4G1_ G04 CONTINUE "
:"_ A4=O.0 ii'_2"0.0
'=',_ GOTO 461i'_. 610 CONTINUE
" A IS "
' _ ......... _ ................................ _ .................. ,............. _-'_._-" : .: ,:.._; " _-:_. ::-_._L,,,_
° ° -: ......" ........ O0000002-TSE 13
C NOOEBELOWTHIN SECTION ORIGINALPAGEIBC(_(_(JJ|/(C(JM] )+C(JJ)) OF POOR QUALITYIF(J'JoEQ,2)_ TO 612
" A1-TO(JM2)*(_D(JM2): ' /13inTO(JJ)eOD(JM2)
I.F(J'J.L_Q,NNDS)GOTO 613A2-TO(JPI)_D(JJ)
: A4-TO(JJ)_D(JJ)* 90 TO 461
;4 613 CONTINUEA,?.-O.O
: k4-O.O60 TO 461
612 CONTINUEC THIN SKIN ON SURFACE,NODEBELOWTHIN SECTION
A1-T_ aCONV+TSINK*_RAD_-TO (JJ)*CONV+TO(JJ)*CftAO
i IF(NNDS.E_).2)GOTO 6143A2"TO(JP1)_CD(JJ)
-_: A4-TO(JJ)*OD(JJ)_ GOTO 461
614 CONTINUEA4-0.OA2=O,O
461 CONTINUE .,FI=(AI+A2)*CCF2=(_+A4) *CO.
ooTo46o :i
l} 615 CONTINUE
C STANDARDHEATBALANCEIF(JJ.NE,1)GO TO 457
C SURFACENODE•F1,,TSINK%"_AD+TAW*CONV+TO(2) *CD(1)
" F2=TO( 1)* (CRAD+CONV+CD( 1) )., GOTO 4604P7 CONTINUE
_ IF(JJ.NE.NNDS)GOTO 4PB._, C LASTNODE
JMI.,JJ-1, FI=TO(JM1)*CD(JM1)__,' F2=TO(NNbS)'o_CD(JM1)
GoTO4eo-_. 458 CONTINUE__, , C GENERALNODE
,J.l-JJ-JPI-J J+l
F1-TO(JM1)*CD(JM1)+TO(JP1)*CD(J J)
!i., F2"TO(JJ)* (CD(JM1)+CD(JJ))460 CONTINUE
C COMPUTF._MPERATURES._ T(JJ) -TO(JJ)+(F1-F2)*(DTSM/C(J J) )_i_ C CHECKTO SEE IF SUBLIMERTEMPERATUREHASBEEN EXCEEDED_ IF(JJ.NE.1) GOTO 456
.:_i IF(LS(I_I).NE.7) GOTO 456
O0000002-TS E14
EXOHT"O,O, IF(T(JJ).LE,TSUS) GOTO4_}6: N_"f
EXCHT"(1'(JJ)"TSUB|eC(JJ}T(J J)"TSUB
456 CONTINUERETURNEND
OI_IGIINALPAG_ i_,5'OF POORQUALIT_
|
o................,° O0000002-TSF01
OEPOORQUALn_tS_R_TINE _
C SUBROUTINECOM_TE_ EF'FECrlVE_I,IERH_ CON_C_q'IVIT_,CAPACII_t',C ANDMASSOF A C_RRUGATEDSTRUGTURE
_t, ff_N/GAP/T1_T2_1 _TH2_TH_Hj PpHpM1_I_jMSpTOLmBET_Slep$ XM_CAP1_CA_XKCOMMON/FACT/XX( 104,2) j,YY( '10_2)COMMON/SF/AR(10) ,EPP(10) _F( 10_,1O)_ASF(10,1O)OOHMON/ffRESSIPRES
. _0" (TI+T2) 12.0:_:. _"I30;_" CONK-1.0EB
li:, AKC"CONK'I_'2"0_'TH_'P2-P/2.0TTI ,,T1TT2,,T2T'I3,,(T1 .0B1-P2/2.0B2,,TH/2.0B:_',_OI_T(Bt **2+9,2**2)A1-P2
VOL'TH1+1142+(2.0 _B3)*THS/P2C STARTITERATIONFORMIDPOINTTEMPERATURES
DO100 1"1,100CALLPROP(TTI,PRES,M1,I_H01,GP1,XK1,EPP(1) )CALLPROP(TT2_PRES,M2,1qHO2,CP2,XK2,EPP(2))CALLPI_OP(TT3,PRES_M3,_O3,CP_,XK3,EPP(:_))IF(I.ME.1)GO TO 101
C SET O00RDINATESFOR ENDSOF EACHOF I"HREESURFACESFORC RADIATIONENCLOSURE
DO 102 I1"1,:_EPP(2)-1.0DO 103 JJ"l,2XT'O.OYT=THIF( I I. EQ.2.AND.JJ. EQ.1)YT=O.OIF( I I. EQ°3.AND.JJ. EQ.1)YT-O,OIF( I I.EQ. 1.AND.JJ. EQ_2)XT,,P2IF(II EQ.3.AND,JJ. EQ,2)XT'P2XX(I I_ JJI"XTYY(I I, JJ)-YT
10:5 CONTINUE102 CONTINUE
C FINb GEOMETRICVIEW FACTORSANDRADIANTINTERCHANGEFACTORSCALLVFAO(3)
, CALLSR/PF(3)A2F2_-ASP(1_3)AIF13-ASF(1,_)
101 CONTINUEAK1"XK1*TH1/B1AK2-XK2*TH2/B1AK_"XK]_TH3/B_
C COMPUTEEQUIVALENTOONDUCTORC1-AK1*AKCLAK3/(AK1*AKC+AK1*AK._+AKC*AK5)c2-AK2*AKC*AK3/(AK2_AKC_AK2_AK3+AKC*AK3)
A-15
_"°'_"....." - _° ' '" _"° ' "_":°'- 00000002-TSF02
ORIGINAL P/_GI__
C OOM_TERADIATIONCONDUCTOR OF' POOR QUALITVC4-A1F13t$ IG*(TI _.2+13 _'2) _CT1+13)CS,,A2F23"SIG*(T2e.2+13..2) e(T2+T_)
C ITERATEON_'13N_(T1_ 1+1'2_02+T1*04+T2*D5) / (C1+02+C,4+C5)T3-BET*T_N+( 1.O-BET)_1"_TEST-_S(_-130)/T_I F(TEST.LT,TOL)GOTO 200
130,,131O000NTINUE
GOTO 300200 CONTINUE
T12,,ABS(T1-T2)T13-ABS¢Ti ,-T3)
C COMPUTETOTALHEATTRANSFERQ,.T13*(CI+CA)/P2XK-Q/TI 2
C COMPUTEEQUIVALENTCONDUCTIVITYXM,.TH1*RH01+TH2*RH02+( 2,0 _B3) *TH3*RHO3/P2
'; C COMPUTECAPACITORSCAP1,,(VOL/2.O)*RH01*CP1CAP2,,(VOL/2.0)*RHO2*CP2
300 CONTINUERETURN
i ENO
A-lfl
' ...................... ""'-_:"_"_"_": ....'''=*'"'" '_ "--" ..........................nnnnnnn9 TSFO3
i.;_! ORICdNALPAG_ I_'_ OF POOR QUALITY
i_ SUBROUTINEDATA1i_: C SUBROUTINETO READANDSTORETHERMOPHYSICALPROPERTYDATA
PARAMETER(NMB1=20pNMB2"6_NI_3=3t NMB4"6)PARAMETER(NMBB=41wNMBg=4f,N_6.10, NMB11=20_NMB12r8)COMMON/DTA/OO(NIVI_8_NMB9)t BSV(N_B _NMB11, NM8| 2)COMMON/OSUB/COS(2, NI_9)COMMDN/LD/LS(N_I•NMB2)pXI_(NMB1•NMB2wN_4)_MATS(N_I •N_2_ NMB_)•
i'i $ NS(NMB1]il " OOMMON/TITLE/CHAR2,CHAR1,FNAM1,FNAM3
COMMON/NODES/NN_I,I"I',TtN IT•TS INK•F; JpTNPIvlAX(NMB6]_ COMMON/INIT/TSTARTeTSTOP,TIMPT_DTIM,NBP,NEXT,METRIC_!_' $ METRIKeMETRIX_NSTP•IPFLAJ3•TINI(NHB1] _SINKT(NMB1)wXFIJ(NMB1),_4_':ki $ MBP(NI_I)• I IN, l iN2CHARACTER_IOCHAR2(NMB6)_TEST1!?, CHA_ACTERe13 CHAR1(NMB6) •TEST2LJ_ CHARACTERW20FNAM1,FNAM__i DIMENSIONMTST(NVB6)_BB(6) ,A_D(8) _ARDS(8] '
! Ii:I OPEN(UN1T't8_NAIVE= t INP1. DATt• TYPEr I OLO_•RECOI_)$IZE"1_2)WRITE(g,703)DO471 JJr I, NMBG
i MTST(JJ)=O471 CONTINUE
10"0NLA=NS(I )
C LOOP1 TO NUMBE_tOF LAYERSDO400 LT'I _NLA
C LOOP1 TO NUMBEROF MATERIALSPERLAYER(MAX)DO500 IM=,1, NMB_MA,,MATS( I _LT_IM)IF(MA.EQ.O]GOTO 500
100 OONTINUEREAD(8/#Ol)KD
701 FORMAT(13_2X•I.%4X_AIO, lX_Al_,ElO,O)707 FORMAT(_X,t_•4X, AlO,1X_A13)
IF(KD.LT.O)C-,OTO 300C CHECKTO SEE IF MATERIALNUMBERMATCHES
IF(KD_NE.MA)COTO J00_ BACKSPACE(UNITr8)
!i_ READ(B•701)KD,JD,TEST1,TEST2,TMPMXA!_:_,, IX) 351 KSrl ,NMB6
_t KSVmK5C CHECKTO SEE IF R_TERIALHASBEENUSED
i!ii, IF(MA.EQ.MI"ST(K._))GOTO 3_2351 CONTINUE
10-10+1' l_frST(iC)rMA
RENUMBERNATERIAL INDENT1FIERSMATS( IN)rIO. I _LT_TMPMAX( IC)=TMPMXA
_" O0 TO 353352 CONTINUE
MATS(I_LT• IH)mKSV iREWIND(UNIT-a) _GOTO 500
_,_i' 3_3 CONTINUEA-17
O0000002-TSF04
0 STORETII"LES OF. POOR QUALrWCHAR2(.I C),,TEST1CH_1 (I C),,TEST2DO 250 IB'le4IF(IB.EQ.1)GO TO 2_I
O READT_LE TITLE FORTABLE2,),AND 4_EAD(8_'/07)JO,TEST1,TEST2
251 CONTINUEC STORENUI_BEROF ENTRIES
IT-( 10-1 )W4+lBCO(IT, 1)-FLOAT(JD)DO200 ITT=I,JDREAD(8,702) (ARD(MR),MR=1,8)IF(ARD(f).LT, O)GOTO G00IF(ITT.GT.1)GO TO 210
! C STOREMAXIMUMTEMPERATUREFORPRINTING IN DESIREDUNITSIF(METRIK.EQ.0)TEMMAX=TMPMAX( I0)-45 g.I F(METRIK.EQ.1)TEMMAX=TMPMAX( IC)/1.8I F( lB. EQ.i .AND,METRIK.EQ,0)WRITE(9, BOO)TEST1,KD,TEMrC_X,TEST2
800 FORNAT(//_8X,AIO, t - MATNO. tel2,//ef MAXIMUMTEMPERATUREt_llX,$ F7.2, t DEGFt,//,Sx, tTEMP,t,gX_A15_/_4X, t (DEOF) t,BX,b$ t {LBM/CU.FT)**/)
IF( IB.EQ. 1.AND.METRIK.EQ.1)WRITE(9j801)TEST1 jKO,TEMMAX,TEST2801 FORMAT(//,BX,AIO_O - MATNO, tel2p//,t MAXIMUMTEMPERATUREO,11Xp
$ F7.2_ t DEGKt,//eSX e tTEMP,t ,gX_A13,/p4X, t (DEGK) t,6X,$ ' (KGM/CU.M.)t,/)
IF( IB, EQ.2,AND.METRIK.EQ.O)WRITE(9,802)TEST2802 FORMAT(//,SX, t TEMP,t,7X, A13_/,4X_ t (DEGF) i,_Xp I (BTU/LBM-DEGF) t,/)
I F( lB. EQ.2.AND.METRIK. EQ.1)WRITE(9,803)TEST2803 FORMAT(//_,))X_,tTEMP,t_7X,AI_/,4X_ t (DEGK) _,4X_ I
$ t(JOULES/KGM-DEGK)te/)IF( lB. EQ.3.AND.METRIK_EQoO)WRITE(9_804)TEST2 "
804 FORMAT(//_SX,_TEMPot,7X_A13_/_4X_ t (DEGF) t_4Xe i$ t(BTU/FT-S-DEG F)t_/) _
I F(IB.EQ.3oAND,METRIK.EQoI )WRITE(9,805)TEST280._ FORMAT(//_X_ iTEMP,t_TX_AI_;_/,4X_t (DEGK) t_4X_* (WATTS/M-DEGK) I,/}
IF( IB, EQ.4.ANDoMETRIK. EQ,O)WRITE(g,8OG)T_$T280G FORMAT(//_SX_tTEMP,e_8X_AI_;_/,4X, t (DEGF) ee4X,t (DI MENSIONLESS)t,/)
IF( lB. EQ.4.AND.METRIK.EQ.1)WRITE(9,807)TEST2807 FOI_MAT(//,SXeeTEMP,e,SX_A15,/e4X, t (DEOK) te4X, t (DI _NSIONLES$)re/)210 CONTINUE
A=ARD(1)B'ARD(2)IF(METRIK.EQ.0)AAA=A-459.6I F(METRIK.EQ.1)AAA=A/1.8BBB=B
I F(METRIK.EQ.1.AND. IB. EQ,1)BBEb'B_IG.0180G7 °IF(METRIK.EQ.1.AND.lB. EQ.2)BBB=B¢4187.6I F(METRIK.EQ.1.AND. IB. EQ,3)BBB=B"6228._43WRITE(9e?05)AAA_BBB
705 FORMAT(1X_E12.4_3X_E12.4)K1=ITT_2K2"KI +t
C STOREINDEPENDENTANDDEPENDENTARRAYSCC(IT_,K1)=A
"' A-18 :,
O0000002-TSF05
LF&I '
CC(IT, K2)=B OF POOR QU/_Li'W200 CONTINUE
GOTO 250600 CONTINUE
C BIV_tAT T_LE' IARDS=IFIX(-ARD(t) )
IF(METRIK.EQ,f)GO TO 605WRITE(ggSO8)(ARD(MR),,MR,,2pI ARDS+I)
B08 FOR_I".(I/,3_X,ICONDUC_.IVIT¥ l,/.3:jx_ i (BTU/FT-S-DEGF) t,i " $ I/_PX, OT_.MP, I_ESSURE(_/S(_.FT}oe/,4X, e(DEGF) o,
$ ?(4X_F?o2_2X))GOTO 610
605 CONTINUEDO608 MR1-2_I/_DS+I
606 N_DS(MR|)"ARDCMR1)*47.88iVRITE(9, 809) (ARD5(MR),MR=2,IARDS+i )
80g FORMA'I"(//_3.J;XpoCONDUCTIVIW e,/,33X, e(iVATTS/M.DEGK) t,$ //,SX, OTEMP, PRESSURE(N/SQ.M)°o/_4X_I(DEG K) O,$ 7(3X, Fg.2,1X))
610 CONTINUEiVRtTE(9_8i0}
810 FORMAT(13X,eo)C STORENUHBEROF PRESSURES
....: CO(IT, 2) =ARD( 1)N_-ARD ( 1)+2 '_
C STOREPRESSURES .iIX) 601 IKS=3,N/_OIMI=IK$-I '.CC(IT, IKS)_,N_D( IM1)
601 CONTINUENSll_.NARD+lN$S,,NARD-2
C READRESTOF BIVARIAT T_LE,::. DO602 16-1eJD
READ(8p702) (ARD(MR),MR"I, IARDS_I)DO620 MKR=I,IARDS+II F(METRIK.EQ.O)ARDS( 1),,/tRD(1)-459.6I F(METRIKoEQ.1)AROS(1)',/_RD(1)/1,8/roDS(MKR)-/mD(MKR)I F(METRIK. EQ,1)ARDS(MKR),_ARD(MKR)*6231.I
620 CONTINUEWRITE(9p811) (ARDS(MKR),Mi<R=16lARDS+|)
811 FORMAT(8(2X_11o4))C SAVETEMPERATURES
CC(ITBNSTR)=AR_(1)NSTR,,NSTR_I
'_i_, ' DO60.1 I?'1 ,NSS171,,17+1
!_ C SAVEDEPENDENTVARI/_LEBSV( IT, 16, I7)=ARD( 111)
' ' 603 CONTINUE602 CONTINUE
,, 250 CONTINUEREAD(8_701_END"1000)KDS_JD_'I'EST1_TEST2_TMPt¢(_IF(KDS.NE°KD)GOTO 1000
: A-19
.... :7: '_............ .._.._=_,-..,. -.-:.-_---_._-_,_.-_'_-:.:.'__C.o._.--".... -,,=_:_--.__..,.-.-._,_-_'Z_'_'-._,-_--_-.,,,,_--_
O0000002-TSF06
C STORETWO_LATOR PROPERTII_$ OF POOR (_JALfi'_" DO 1100 IN2-1,2
COS(I t42,1)-FLOM(JD)
IF( IM2,i_0.1..AND.METRIK.I_O.O)WRITE(g,850)TESiT2.850 FORMAT(//,4X, t PRESSURE*,pX, A15,/,5X, v(LB/_. FT) ie6X,
$ f(DE@F)t_/) ,,IF( IN2.EO.|. ANb.METRIK. EO.1)WRITE(_3e651)TEST2 "
: 851 FORNAT(//,4XmI PRESSUREteSX_A15,/t4Xe ! (N/SO,M) I j?X,$ t(DEG K_V_/)
I1_(I M2.EOo2. AND.METRI K.,EQ.O)WRITE(g j852)TEST2 ,8;32 FORMAT(//,4X,'PRESSURE'pSX,A13,/_SX_t (I..B/SO.FT)I,SXw
"' ,I, '(BTU/I.,BM)'.I)I F( I M2.EOo2.AND.METR[K. EOo1)WRITE(g_o35)TEST2
855 FORMAT(//_,4Xp'PRESSUREt,_x_A15_/,4x_, ' (N/SO,M) ',PX,$ ' (JOULES/KGM)!e/)DO 1101 ITT-I.JDREAD(8_,702)A_BF(METRIK.EO°0)AA1"A
•" F(METRIK, EO,1)AA1=Ae4?o88:-" F( IM2.EQ.1.AND.METRIK.EQ,O)BB1=B,.-459.6. F(I K2.EQ.1.AND,METRIK.EQ.1)BBI=B/1.8:_ F( IM2•EO.2. AND.METI_IK,EO,O)BB1-B_'. F( IM2.EQ.2,AND,METRIK.EQ°1)BB1=B'2.326°4
- WRITE(gj?OS)AA1,BB1' K1=ITT*2
L_-. K2=Kl+I,_
;;, C_( IM2,,K1)=A;_::" CCS( IM2,K2)=B-.!_' 1101 CONTINUEr-'J.
_,.. REAb(8,701)KDwJDpTEST1_TEST2_TMPMXAb,_ 11O0 CONTINUE
1000 CONTINUE_ REWIND(UNIT=8)_ GOTO 500
500 CONTINUEz_',"
;_, WRITE(g,7OS)MA;:- 708 FORMAT(IH_'MATERIALNUMBER'p3Xp15,SX, ICANNOTBE FOUND,.t),:- REWIND(UNIT=8)
60 TO 500.- 500 CONTINUEi_ 400 CON'rlNUEi_:'._ REWIND(UNIT=8) ..,:_' 702 FORMAT(SX,SEIO.O);: 703 FORMAT(1Ht_10X_t1HTA B L E S):: CLOSE(UNIT=8, STATUS='KEEPt )':". ' RETURNi END
"*_" ' _t
i
;_ A-20
OOOOOO02-TSF07
, SUBROUTINEDATA,?,(LBP)': C SUBROUTINETO READANDSTOREENVIRONHENTFROMLANHINFILE (UNIT 7)
PARAMETER(NMBlO_,lOO,NMBl,,20); ¢OHMONtINIT/TST-ART_TgTOPeT IMPT,DTIM,NBP,NEXT,METRICe
. $ METRIK,METRIX,NSTP#IPFLAGoTINI(NHB1),SINKT(N_I ),XFI J(NMBI),i $ _P(NMB1)_ I IN_I IN2
' COHMON/ENVIR/TM1(NMB1O)pilot (NMB10)jH_I (N_I 0), PRE$1(NMB1O)CHN:tACTER*72{::)E$CRPWRITE(9_666)
i 666 FORMAT(IH1)100 CONTINUE
'-' I0"0! READ(7,700, END"1O00)OESORP,IBPi ?00 FORMAT(AT2,I_)
C CHECKFOI_CORRECTBODYPOINTNUMBERIF(IBP.EQ.LBP)GO TO 900
_: 50 CONTINUEREAD(?j701)D1, D2,D3,D4
i 701 FORMAT(2X,F6,1,39XjE10.3_2X,ElO._j56X, ElOJ)],. IF(D1.LT.O,o)Go TO 100':, _TOPO
900 CONTINUEI F(ME'I'RIC. EQ.O)WRITE(9_?_0) IBP,DESORP
!_' 7.50 FORMAT(IH,IBODY POINT NUMBER"eeI_e_X, A72,//p10X, ITIMEIjgX,! $tFILM COEF.e_X, tREC ENTHALPYe,_Xj ePRESSUREt,/,10X, t (SEC)Ie
$6X, ' (L_M/S_. FT-$EO)t ,4X, ! (BTU/L.BM)', 6X, ' (LBF/SQ.FT) ' ,/):.:. I F(METRIO.EQ,1)WRITE(g_BSO)IBP,DE$ORPr..' 8.$0 FORMAT(1Hjt_OY POINT NUMBER= t, I.SeSX,A72,1/,10X_,TIMEt,OX:,
I: $tF'lLM OOEF.t_SXl,_REC:ENTHALPY__6X_i PRESSUREt _/,10X, t (SEC)I,$7X, t (KOM/$QM.-SEG)',4X, t (JOULES/KGM)o_SXet (_,M) o,/); 901 CONTINUE'_, IC=10+1_, C READLANMINDATA
READ(7_701)TM1( IC),HCI ( IC)_HAY/J( IC),PRES1(ICYIF(1'M1( IC) ,GE,0.0) WRITE(9_,7_'1)TM1( IC),HC1( I C),
_":, $HA_I(I C)_,PRES1(IC)I IF(METRIC,EQ.O)GOTO .500i HCI( IC)=HCJ( 10)14.B824
,_ HAW1( IC)=HA_I( I C)/2,_2456_:: PRES1( IC)_PRESl( I C)/4?',BB
500 CONTINUE"/_}1 FORMAT(IH_4(EX_EIO.4))_; I F(TM!(IC)._E.O.O)GO TO 901
I REWIND(UNIT=?)GOTO 1001
, 1000 OONTINUE_RITE(9,7]52) LBP
7P2 FORMAT(IN,OCANNOTFIND BODYPOINT 1,15)1001 CONTINUE
RETURNEND
:)
:!iA-21
' ""....... - Uuuuuuuz"""""""'-TSFO8
i
SUBI_OUTINI£DIST(IlI, Jf, 12eJ2_D)C SUBROUTINE[TOOOMPUTEDISTANCEE31E'i_EENTWOPOINTSGIVENO OOORDINATESXX(I_J)_YY(I,J)C I = SURFA_NOC J - 1 OR2 I ENDPOINTSOO
OOMMON/FAG'T/XX(10_2},YY(10p2}XI,XX(I 1,Jl }YI-YY(I | jJ1 )X2,,XX(12_J2)V2"YY( 12wd2)D,,_RT( (XI-X2) _t2+(Y1"Y2}_'2)RETURN
E[ND OrtGt_P_ p/_l". _,!,OF pOOR QUALt'Cv
O0000002-TSF09
_ ORIGINALP,_C;:F,:,_OF POORQUALFIY
SUBROUTINEHEATN(TII_EtHO,HAW_PRE$_ISV)O 1"HISROUTINEDETERMINESFILM OOEF,FICI£NT_ADI_ATICWALLENTHALPYtO ANDPRESSUREASA FUNOTIONOFTIME
. PARA_T.ER(N_I 0-100)COMMON/ENVIR/TM1(NMB1O)eriC1(NI_B1O),HAW1(NMB1O)ePREs1(NMB1O)II-lSV
100 CONTINUE12-11" IP(TM1(12).OT.TIME)O0TOPO
I1,,11+1TO100
50 I3ONTINUE '_ISV-IIDT"TM1( 12)-TM1( 11)DINC,,(TIME-TM1( I1 ) )/DTHC-HC1( 11)+(HC1( 12)-HC1( 11) )eDINCHNV-HAW1( 11) 1( 12)-HNVl ( 11) )eDI NCPRES-PRES1( 11)+.(PRE$1( 12),,PRE$1( 11) )*DINORETURN
•. END "
0
_ A-23 ,':",,o
j
O0000002-TSFIO
SUBROUTINE HONEYC SUBROUTINETO OOMPUTEEQUIVALENTTHERMALCONDUCTIVITY_CAPAOiTY,C ANDMASSOF HEXAGONALHONEYCO_STRUCTURE
COMMON/GAP/TI, T2, TH1, TH2, TH3,TH,P=H,M1,M2,M3eTOLj BET, SIG,$ XM!CAP1_CAP2,XKCOMHON/PRESS/PRESF12=°1F1.',-.9
C SET GEOMETRICPARAMETERSDRH*._,.O/(2.O*$QRT(3.O))CPFT2=2,0ISQRT(5o0) / (H**2*_t .0 )WPFT2=CPFT2*5,OOWAL-O*2.0/3.0 ORI_NAL Pi:_&_ ILVOL=(TH1+TH2)+WPFT2*(TH*TH3_q)WAL) OF POOR (_UALiT'V,A1=(D/_.O'WH/2.0)/2,0A2=A1_=DW_*THT3=(Tl 2.0CON=IfOE8CONK=CON*DWAL*TH3130=13DO 100 I-1,100CALLPROP(T1,PRES,M1,RH01,CP1_XK1,I_P1)CALLPROP(T2,PRES,H2,RH02_CP2_XK2,EP2)CALLPROP(13, PRES_M3,1_-103_CP3,XK_,EP3)
C COMPUTERADIANTINTERCHANGEFACTORSFI=( 1.O/A1 )*( 1°O/EP1-1.0)F2=( 1,O/A5 ) * ( 1.0/EP._-i .0 )F3=1,O/(A1 *FI_)A1F1._=1,0/(F l+F2+F3)F2=( 1,0/A2)* ( 1,O/EP2-1,0)F3=1.0/ (A1*F12)A1F12=1.0/ (F l+F2+FS)
C SET CONDUCTORSCI=4,0*TH1*5.O*DWAL*XK1/HC2=C1*XK2/XK1C3=2•O*XK3*TH3*DWAL/THXC1=C1*CONK_3_,/(C1*CONK+C1*C.'_+CONK_C])XC2=C2*CONK*C3/(C2*CONK+C2*C.'_+CONKNC])R1=2, O'A1F13"SI6' (T1*'2+13"2) * (T1+i_ )R2=2,O'A1F13"SIG*(T2"'2+13"2) * (T1+13)R3=2,O'A1F12*SIG*(T1*'2+T2"'2) * (T1+1"2)
C ITERATEONCELLWALLTEMPERATURE- 1313N=(T1* (XCI+R1)+T2* (XC2+R2))/ (XC1+R1+XC2+R2)1.3=( 1,O-BET)*TS+BET*T]NTEST=ABS(13-130)/r]t
i IF(TEST.LT.TOL)C'_)TO 200130=13T13=13
1DO CONTINUEGOTO ._00
_ 200 CONTINUE iT12=_S (T1"T2)Tl_=ABS(T1-13)
C COMPUTETOTALHEATTRANSFER
i A-24
O0000002-TS F11
Q.(T12_.I.T13*(R2,+X02])_PFT2 OP POORQUALITYC OOMPUTECONDUOTIVl'r'Y,MASS,ANDCAPAOITANOE
XK_Q/T12XM_,TH1*RHOJ+11"12'RH02+1t'10__PF'I'2tTH*TH:3_ AL
, OAP|=(VOL/2.0)_RHOI._CPI ,,CAP2"(VOL/2.0)*RHOZ*CP2
300 CONTINUERETURN
. END
A-25
O0000002-TSF12
+4t'.Ib.+I _+_IP'}:"!
OHIGtt_I/tLI+A_J;.7,[',_
OF POOR QUALITY
SUBROUTINE' INR3EOC SUBROUTINEFOR INTERACTIVEINPUTOF DATAFOREXITS OODEC INCLUDESINTERACTIVEINPUTOF S,TRUCTURE8
PARAMETER(NVE_Im20_NN_2=(_+NMB]_3eNIV_4_5eNI_6,=1O,NI_+?_100)COMMON/GAP/Ti,T2pTH1+TH21TH_,TH+PwHwM1j M2+M],TOL_BETwSt(_pXM,
$ OAP11CAP2_XKCOMMON/INIT/TSTARTwTSTOP_T IMPTIDTIM_NBP_NEX'I"_METRI(_e
$ METRIK,METRIXtNSl'PwIPFLAG_TINI(NMB1)pSlNKT(NM_I),XFIJ (N_I)w$ MBP(NMB1) _I IN4,I IN2OOMMON/TINE/NNDSpCONVpC'RD,DeST/_eISBFQ,NCD$OOMMON/LD/LS(NIVB1sNMB2),XP(NIVB1,NMB2t NIV_4), MATS(NMB1,NMB2,NlVS_),
$ NS(NMB1)COMMON/PlCT/NNI5(NMB1wNHB2)¢OMMON/TITL2/ CHAR3COMMON/TITLE/OHAR2_OHAR1wleNAN1pFNAIVBCHARACTER_20CHAR('/)_FNAM1,FNAM2,FNAM_CHARACTER+t10CHAR3(NMB7)_CHAR2(NIVB6)CHARACTER*13CHAR1(NMB6)
: INTEGER ANS1, AN82wANS4_AN85pANS6,AN$7, ANS8,AN89_ANS10_8TRFLGDATA CHAR/
1 _SL/E_ o
2 _RADIATIONGAP _._ _HONEYCOI/_
'+ 4 _CORRUGATED I5 _Z STANDOFF _,6 'THIN SKIN ',7 _ABLATORSUBLIM_R _/
:._ g WRITE(IIN2,10_10 FORMAT(1H_WHAT IS THE MINIVER INPUTDATAFILE NAME_B)
READ(I IN, 2D,END=I2_4) FNAM220 FORMAT(A20)
OPEN(UNIT=7, NAI_.=FNAH2_TYPE= _OLD=, ERR=g+REOORDSIZE=80)22 K'RITE(I IN2,2])
ii 23 FORMAT(1H,_WHATIS THE STRUCTUREFILE NAME?_)._ READ(I IN,20,END=I2_4) FNAM]
WRITE(IIN2,_O)]O FORMAT(iN,_WHAT18 THE NAMEOF THE OUTPUTFILE ?')
READ(I IN,20,END=12_4)FNAM1OPEN(UNIT=9, NANE=FNAM1,TYPE= INEW_, ERR=22,REOORDSIZE=I]_2)
C DEFAULTVALUESFOROONTROLPARAMF.TER_DTIN=I0.0
: STAB=2,0TOL= ,001BET=O.PNEXT-20NSTP=_O00 ,.IPFLAG=I
', METRIC=O"'., METRIK=O1 METRIX-O ,..
:! C SET INITIAL_FINAL_ANDDELTAPRINT TIMES40 WRITE(IIN2,SO) _50 FORP_T(1H_WHAT IS THE INITIAL TIME(SEC) 1_)
' A-26
O0000002-TSF13
READ(IINw%ERR_40,END_I2]4)TSTART60 WRITE(II N2,?O)70 FORMAT(IN,tWNAT 16 THEFINAL TIME(SEC) ?I) ORIGINAL P/_,{"IE|_
READ(IINe%ERR_fiO_END"I2:34}TSTOP OF POOR QUALI_OO WRITE(IIN2,gO)
' 90 FORMAT(-1H,tWHAT IS THE TIME(SIlO) RCTWEENPRINTOUTS?t) .,RI_AD(I INj %ERR"OOeEND"I2_4)T.IMPT
100 WRITE(tIN21110)110 FORHAT(IH_eDOYOUWANTTO RESETCONTROl,PARAMETERS?_)
" REAl)(I INp120, ERR"100e_;ND"1214)AN$1120 FORMAT(A1)1_0 FORMAT(E20.1O)140 FORMAT( t 1O)
IF(ANS1.NE.IHY)GO TO 190
C RESETCONTROLPARAMETERS160 WRITE(IIN2,110)DTIM170 FORMAT(1H,tRESOLUTION=DEFAULT" t,F4.1,1 NEWVALUE" l) _,
R£AD(I IN1130,ERR'160,END=1234)A1IF_kt .GT,. 00001)DTI M'A1
180 W_ITE(IIN2,190)STAB1¢J0 FORMATtlH,tST_ILITYI DEFAULT" I,F:_.I, 1 NEWVALUE= t)
READ(I IN, 150,ERR"180bEND=1234)A2IF(A2.GT..00001) STAB=A2
200 WRITE(IIN2,210)TOL210 FORMAT(IH_f ITERATIONTOLERENCEtDEFAULT= 11,F4.3,1 NEWVALUE" t)
READ(IINj 130, ERR"200,END=12._4)A.3I F(A] .GT.. 00001)TOL=_
'_ 220 WRITE(.I IN2"_250)BET230 FORMAT(1H_,tRELAXATIONFACTORsDEFAULT" e,FSol,e NEWY/CUE" I)
READ(I IN, l_O_,ERR_220_END=12_4)A4IF(A4.GT..0000t )BET=A4
_" 240 WRITE(IIN2,250)NEXT250 FORMAT(1H,eNUMBEROF STEPSBETWEENPARNVlETERCAI.C_=DEFAULT= e_.I2_
$ ! NEW VALUE" 'i)READ(IIN, 140,ERR=Z40,END=12:_4)K1I F(K1oGT.0 )NEXT'K1
" 260 _RITE(IIN2_270)NSTP_'' 270 FORMAT(1H,tMAXIMUMNUMBEROF ITERATIONStDEFAULT= _14,:_,- $ t NEW VALUE " _)
READ(IIN, 140, ERR'260_END=1234)K2,,_ IF(K2.GT.O)NSTP,,K2
WRITE(IIN2,278)i' 278 FORMAT(/,
$ 16X,_ENGLISH(DEFAULT)_,PX, !METRICee//,$ tX, ITEMPERATUREe,4X,IDEG Fe,16X, tDEG Kt_/,
• $ IX, tLENGTH_,9X__INCHESt,lPX_ICM_,/,lX, ! ENERGY! _9X,_BTU_, 18X,_JOULES! _/,
_lX,_MASSt,I1X,_LBMt_lSX,_KGM_,///)27P WRITE(IIN2,277)FNN_42
i:!" .-_ 277 FORMAT(1H_ARE THEUNITS OF t,A20_t IN ENGLISHORMETRIC?t)I READ(I 1 END=I2:_4)ANS8IN, 2O,ERR-27P,
IF (ANS8°EQ°1HM)METRIC=1I' 281 WRITE(IIN2,Z82)
282 FORMAT(IH,_DO YOUWANTOUTPUTDATAIN ENGLISHOR_TRIC ?t)
A-27
ORIGINAL Pi_._'_6_I_
READ(IIN,120,ERR,',281,END*,12_t4)AN$8 OF POOR QUALI'I'YI F(AN_ ,EQ.1HM)METRIK-1
28_ WRITE(IIN2,284)264 FORMAT(1H,¢DO YOUWANTINPUTDATAIN ENGLISHORMETRIC?')
READ(I IN, 120pERR=_283,END_12_4)ANS8IF(ANS8.EQ.1HM)METRI X.,1
280 WRITE(IIN2,290)290 FORMAT(1H,tOO YOUWANTADDITIONALPRINTOUT?¢)
READ(I IN, 120, ERR=280,END=1234)AN$7IF (ANS7.EO.IHY) IPFLAG=O _.
C ENOOF CONTROLPARAMETERLOOP'C m Qm_DmmJm _mmlDINHNmDO _m_mlmm t_m _m_mm _m._ m_ _m_m m_mm_ _m._mmm_mm
150 CONTINUE500 CONTINUE510 WRITE(fIN2,520)]20 FORHAT(1H,'WHAT IS THE TOTALNUMBEROF BODYPOINTS?0)
READ(I IN,** ERR"3109END=I2._4)I_BP_, I F(NBP.GT.NMB1)WRITI_(I IN2,550)
530 FORMAT( lX, *ERROR---NUMBEROF BODYI°TS. EXCEEDSDIMENS{ONINGt)IP(NBP.GT,NMBt)GOTO 500DO 1000 IB=I,NBP
C DEFINESTRUCTUREAND INITIAL CONDITIONSFORTHECURRENTBoDYPOINT540 CONTINUE
r_. IF( I!_,EO.1)WRITE( I IN2,350)t IF( IB.NE. 1)WRITE(I IN2,360)
560 FORMAT(1H,IWHAT IS THE NEXTBODYPT. NUMBER?*)350 FORMAT(1H_'WHAT IS THEBODYPOINTNUMBER?t)
.t REAl3(I IN, *_ERR=_40,END=1234)MBP(IB)IF(IB°EQ.1)GO TO _70
C IF STRUCTURESALVEAS FOR PREVIOUSBoP, USESAMEDATA390 WRITE(IIN2,380)MBP(IB),MBP(IB'l )f
380 FORNU_T(1H_ODOES._ODYPT. °,lS,t HAVETIlE SAMEDATA¢,$ t REQU,._:EMENTSAS BODYPT. t,15,° ?l)
' READ(I IN, 120, ERR=It90,END=1234)ANS5IF(ANSS.EQ,1HY)GOTO 890
310 CONTINUEC RESETTIME ORCONTROLPARAMETERS?C YES(Y) = RESETTIMING PARAMETERSC TIME(T) " RESETTIMING PARAMETERSC CONTROL(C) m RESETCONTROLPARAMETERS410 WRITE(IIN2,420)420 FORMAT(1H,tDO YOUWANTTO RESETTHETIME ORCONTROLo
$'PARAMETERS?=)"_, READ(I IN, 120, ERR=41O,END=1234)ANS6; IF(ANSG,EQ.1HY)GOTO 40t
=, IF(ANSG.EQ.1HT)GOTO 40IF(ANSG.EQ.1HC)GOTO 160 .
C DEFINE INITIAL TEMPERATUREDATAFORBODYI:_)INT450 WRITE(IIN2,4OO)MBP(IB)400 FORMAT(1H_tWHATIS THE INITIAL TEMPERATUREOF BODYPT, t,
$15,' ?t)READ(I IN, %ERR=4)OpEND=1214)T INI (IB)IF(METRIX°EQ°O)TINI (IB)=TINI ( IB)+459°6 ';IF(METRIX.EQ.1)TINI (IB)=TINI (IB)*I.B !
'.' 440 WRITE(IIN2,450)MBP(IB)I
A-28 ,
_-"
.. ." .., , _-'--_ .±_. . . ...._': .... _ ___ . , • ---,:,--,.-,'.-_ _.: -. Z_ -'- ..... __
' ......... 00000002-TSG01"
OF POOR QUALIIW'
.150 FORMAT(tHwtWHATIS THE SINK TEMPERATUREOF BODYPT. _,
READ(I IN, _l,ERfl=440,END"1234)SINKT(tB)
' I F(METRIX. Eg.1)SINKT(IB)"S INKT(IB)e1.0460 WRITE(I IN2w470)MBP(IB)470 FORMAT(1H,it'/HAT IS THE VIEW FACTORFORBODYPT. I,l_,° ?t)
READ(I IN, _pERR"460,END"I2.34)XFI J(IB)' STRFLO=O
C DEFINE STRUCTURE4"/2 WRITE(IIN2,4?3)MBP(IB)4"/] FORMAT(1H,_DOESTHE STRUCTUREFORBODYPT. t,15,
$ t EXIST IN 'tHE STRUCTUREFILE 1_)READ(I IN, 120, ERR'.472, END=1234)ANSg
C OBTAINSTRUCTUREDATAFROMS'fRUCTUREFILEIF(ANSg.I_O,IHY)CALL STRUCT(1,IB)IF(ANSCJ.Eg,IHY)GO TO 8._0
474 WRITE(I IN2,4"/5)VaP(IB)475 FORMAT(1H_t_ YOUWANTTO ADDTHE STRUCTUREFORBODYP% t,
$ 15, t TO THE STRUCTUREFILE ?t)READ(I INj 120, ERR=474,END=1234)ANSl0I F(ANS10,EO,1HY)STRFLG=(
480 CONTINUEC DEFINE NUMBEROF LAYERS4gO WRITE(IIN2,5OO)MBP(IB)_iO0 FORMAT(ill_tHOWMANYLAYERSAT BODYPT. i,15j i to)
READ(I INj _, ERR=490,END=i234)NS(IB)IF (NS(IB) .GT. NMB2)WRITE( I IN2,51 O)
.510 FORMAT(lXwtERROR---NUMBEROF LAYERSEXCEEDSARRAYDIMENSIONINGt )IF(NS(IB).OToNMB2)GOTO 480
C LOOP1 - NUMBEROF LAYERSIX) 2000 KK=I,NS(IB)
C DEFINE STRUCTURETYPEANDDIIVEN$1ONSFOREACHLAYER._20 WRITE(IIN2,550) J530 FORMAT(////, t STRUCTURETYPE - - - NUMBERt,//,_
S w SLAB 1 I,/,$ t RADIATIONGAP 2 t,/,$ t HONEYCOMB _ t_./ _ ,=
$ t Z STANbOFF 5$ ! I'HIN SKIN 6 f,/., _$ t ABLATORSUBLIMER 7 t,///)
540 WRITE(IIN2,550)KKpMBP(IB)550 FORMAT(1H_tWHATIS 1HE STRUCTURETYPENUMBERtp
$ tFORLAYERt,12_t OF BODYFT. t_lS_t ?_)* READ(I IN, _, ERR"540_END=1234)LS(IB_.KK)
GOTO(560_5?O,SeO_590,600,610_E20)_LS(IB_,KK) ;560 WRITE(IIN2_,6]O)KK,MBP(IB) ,*
READ( I I N_t_ERR"560,END't2_4)MATS( IB,KK_1) ,XP( IB,KK_1) il." GOTO 640
570 CONTINUEDO]5000 LLU,1,2
650 WRITE(IIN2_660)LLL_KK_MBP(IB)READ(1IN, t, ERR=650j,END,,1234)MATS( IB_KK,LLL)_XP(IB_KK,LLL)
]_000 CONTINUE _
A-29
00000002-TSG02
ORIG|NAL PP.(iiE[',_.iOF POOR QUALITY
670 WRITE(IIN2w660)KKeMBP(IB)680 FORMAT(1H,tWHAT I$ THE STRUCTUREHEIGHTFORLAYERt,
$ 12_t OF BODYPT. t,15pt ?_]READ(1IN, wwERR_8?O,ENDnJ234_XP( IB, KK,4)GOTO 640
980 CONTINUEDO4000 LLL'I,_
690 WRITE(IIN2,OOO)LLL,KK,MBP(IB]READ(I IN, _'_ERR=B90.END=12_4)MATS( IB,KKjLLL] tXP( IBpKK,LLL)
4000 CONTINUE700 WRITE(I IN2,7tO)KK,MBP(IB]
READ(I IN, *wERR=700,END=1234)XP( IB, KK,4) jXP( IB, KK_6)GOTO e4o
990 CONTINUEDO4_00 LLL=Ij]_
720 I_tRITE(IIN2p650)LLL_KK_MBP(IB]READ(I IN_#, ERR=720,END=1234)MATS( IB_KK,LLL),XP( IB, KK_LLL)
. 4500 CONTINUE730 WRITE(IIN2,740)KK_MBP(IB)
READ(I IN, % ERR=730,END=1214)XP(IB, KK,4),XP( IB, KK,5)GOTO 640
600 CONTINUEDO5000 LLL=I,3
"/50 WRITE(I IN2,660)LLL, KK,MBP(IB)i _EAD(I IN_%ERR=750,END=1234)MATS( IBwKKjLLL),XP( 19_KK,LLL)
5000 CONTINUE_ 760 WRITE(IIN2_770)KKwNBP'IB]
READ(I INj %ERR=76O_ENb=1234] (XP( IBpKK_LLL+3), LLL=t w3)GOTO 640
610 CONTINUE '_780 WRITE(I IN2pB]_O)KK,MBP(IB]
READ(I IN, ** ERR=780_END"1234)MATS( IB_KKp1] _XP(IBpKK_4)GOTO 640
620 CONTINUE?go WRITE(IIN2,630)KK,MBP(IB)
READ(1IN, _, ERR=790,END=1234)MATS(IB,KK, 1],XP( IB,KK, 1)GOTO 640
6._0 FORMAT(1H,*WHAT IS THE MAT. IDENTIFIER ANDTHE MAT.e,$ _ THICKNESS_J,_ FORLAYERt_12_ t OF BObYPT, _,15, _ 't 1)
660 FORNAT(e WHATIS THE MAT. IDENTIFIER ANbTHICKNESSOF M_'F. ¢,$ 12,/, _ FORLAYER_,12, _ OF BODYFT. _,15, _ t I)
: 710 FORNAT(1H**WHATIS THE STRUCTUREHEIGHTANDCELL DIMENSIONS_,i $ e OF LAYERl_12,1 OF BODYFT. _,1_, _ ?t)
740 FORMAT(_H,eWHATIS THE :>TRUCTUREHEIGHTANDPITCH FORLAYER_,$ 12, t OF BODYPT. t,lPll ?t)
770 FORMAT(1H,IWHAT IS THE STRUCTUREHEIGHT_PITCH,ANDFLANGEr,$ _ WIDTHFORLAYER_,12_ _ OF BODYFT. t,15,_ ?t)
640 CONTINUE800 _RITE(I IN2_665)KK,MBP(IB)665 FORMAT(1H,*ARE THEREANYCORRECTIONSFORLAYERl,
$ 12__ OF BODYPOINT _,15, t ?_)READ( I IN,81O,ERR=800,END= 1234)ANS2
810 FORMAT(A1)IF(ANS2oEQ.1HY)GOTO 520
2000 CONTINUE /_ CONTINUEWITH NEXTLAYER' !
A-30
O0000002-TSG03
:' ORIGINAL PF_E ;31OF POOR QUALITY'
830 CONTINUEIF(I_.GT,1)GO TO 85_,
C: _ C O_TAIN MATERIALNA_S TO NATCHMATERIALNUI_ERS(USEDI_Y PICTURE);, OPEN(UNIT"B_NAME=! INP1.DATt _TYPE=IOLDt, RECORDSIZE=132]:_ 6000 CONTINU/3• READ(B,B40)MNU_
IF(MNUMB.EQ,O)GOTO 6000' IF(MNUMB.LT.O)GOTO 850
BACKSPACE(UNIT=8)READ(8_840)MNUMB_CHAR3(NNU_)
840 FORMAT(13,11X,AlO]GOTO6000
850 CONTINU_REWIND(UNIT=B)
._ CLOSE(UNIT=8, STATUS=tKEEPt )"" C
=-- C=.f
:; IF(ANSg.EQ.1HY)GOTO 911855 CONTINUE
= DOg10 INCI=I,NMB2
_. DO g10 INC2=l,N_/34I F(METRIX,EQ,O)XP( IB, INC1, INC2)=XP(IB, INC1,INC2]/12,2. IF (METRIX.EO, 1)XP( IB, INCI_ INC2)=XP(IB, INCJpINC2)/2._4/12,
_, 910 CONTINUE911 CONTINUE
l C DISPLAYPICTUREOF COMPLETEsTRUCTURE SCREENON
,_"" CALL PIC_R(5, IB] :.
_ . 860 WRITE(IIN2,870)MBP(IB)-- 870 FORMAT(///,1H ;tARE THEREANYCORRECTIONSFORBODYPT. I,l_,. t ?l]" READ( I I N,81O,ERR=B60,END=1234)AN$4
, cA.S4.EO.1.Y)oTo-, c ^oDsucTu.EToSU I"UE,LE
GOTO820
-_. 890 CONTINUEC IF STRUCTUREFORBODYPOINTMATCHESSTRUCTUREFORPREVIOUS._ii C BODYPOINTI_IEN USESAMESTRUCTUREDATA_"_ T INI ( IB)=TINI (IB-1)_i,. SINKT(IB]=SlNKT(IB-1 ).-_ XFIJ( IB_,=XPIJ( IB-1 )
NS(IB),,NS( IB-1 )" DO7000 KKKK=t_NS(IB-1 )-"' LS( IB_KKKK)"LS(IB'1 _KKKK)
r. ,
_i:._ B DO8000 LLLL=I,6XP( IB,KKKK,LLLL)=XP( IB'1, KKKK,LLLL)_" 8000 CONTIN:'E
: DO9000 _1 ,,3MATS(IB,KKKKeMMMM)=MATS( IB'1 ,KKKK,MMMM]_i '_ 9000 ' CONTINUE__'P 7000 CONTINUE,,. IF(ANSS.EQ.1HY)GOTO 911
:_i;__ coTO8,o ]_'_. 820 CONTINUEi"-: 1000 CONTINUE /_ CONTINUE_ITH NEXTBODYPOINT
_i.:_ ___-_-_ -_O0000002-TSGO'
WRITE(II.N2_,880)BBO FORMAT(/I,1X,_ MODELCOMPLETE- - - - - - GONETOEXECUTI_t )RETURN
1234 OONTINUESTOPEND
OII_NAL p.C_,C__SDE POOR(_UA_.IT'v
A-32
)
00000002-TSG05
_,. I_4b,__
OF. POOR QUALITY
SUBROUTINEINTP(XpPeNpY)0C SUBROUTINE.TOINTERPOLATEMONOANDBIVARIATETABLESFORPROPERTIE6
PARAI_TER(N_B=41, NMBg=41jNMBi1,20 j _:MB12-8)COI_ON/DT_CC(NMBS,NMBg) j 1_9V(NMB8)NVB11_N(_12)
C C:H£OKTO SEE IF T_L_- IS _IV_IATEIF(CO(NI,2),LToO,O)O0 TO 2000
O NONOVARIATEIN_RPOLATIDN" DATASTOREDIN OO(N,J). J'OO(N,1)
JlmJ*2XLST=CC(N,2)Xl4ST=CO(N,J1)IF(X.E_.XLST)GO TO 700IF(X.LT,XLST)GO TO I00IF(X,GT,XHST)_TO200JT-4
; _00 CONTINUE:. IF(CC(N, JT),,X) _500_600w400
300 CONTINUEJT,IJT+2GOTO5oo
' 400 CONTINUE;., NI=JT-2: ' N2"Nl+Ii "! N3"JT,. N4=f_+l_:: GOTO 90C'
!'.i 600 CONTINUENT-JT#t ,,
i i, Y=CCIN_NT)i. GOTO 1000 I
7130 CONTINUEY"OC(N,3)GOTO 1000
100 CONTINUEN1,,2N2'-3_,,4N4"5 ..GOTO900
200 CONTI,',IUEN1"2'J'2N2"Nl+lN3-2*JN4=N_+I
e 900 CONTINUEC COMPUTEPRO_RTY
SL=(OC(N,N4)'CC(N, N2))/(CC (N, N_5)"CO(N,NJ) )Y'CC(N,N2)+SL_(X-CC(N,N1) )
z 1000 OONTINU_GO10 3000
2000 CONTINUEC BIVARIATET_LE$C INDEPENDENTVARIABLESIN CC(N,J)C DEPENDENTVARIABLESIN BSV(N_JT,IL)
A-33
................ 00000002-TSG06
Ng='OC(N,2)+2,0 . , ,,N6-4 OHIGINAL p}_GE £_
490 CONTINUE OF pOOR QUALITYIF(CO(N,I_)-P 3351,3_2,353
351 CONTINUEIF(NS,GE:,Ng)GO1"0 375NS-NS+lGOTO4_0
392 CONTINUEGOTO 315
353 OONTINUI_N7=NS-1GO TO_560_
37S CONTINUEN7,,N8
• PFAG-OoOGOTO 561
560 OONTINUE0 FIND INOREMENTIN PRESSUREDIRECTION
PFAO=(P-OC(N_N7) ) / (OC(N_N8)-CC(N_N7) )561 CONTINUE
LS='CC(N,2) +4°0L9"-CC(Nw2) +2, O+CC(N,1)
_ _ 950 CONTINUE" "' IF (CC(NjLB)'X)791,792,753
791 CONTINUEIFtLS.GE.Lg)G0 TO 775
='_ LB=L8+1GOTO 590
792 OONTINUE., GOTO 775_: 7_3 CONTINUE
L7=L8-1 =GO TO 760
i 775 CONTINUE-i L7=L8
TFAC=O.0, ! GoTO761
760 CONTINUEC FIND INCREVENTIN TEMPERATUREDIRECTION
!! TFAO=(X-OC(NpL7) )/(CC(N, LB)'CC(NeLT) )761 CONTINUE
IR=NB-2 ,IL-NT-2JT"L7-NgJB=LB-NgF1"BSV(N,JT_IL)+PFAC_(BSV(N_JTwIR)-BSV(N_JT_II, ) )F2-BSV(N, JB_IL)+PFAC*(BSV(N_JBpIR)-BSV(N_JBwIL) ) :'
C FIND PROPERTYY'F 1+TFAC*(F2-F I )
3000 CONTINUE , .RETURNEND ;:
A-34
i.
O0000002-TSG07
• i*-,_:_ _'i
OF POORQUALITY'p!.. SUBROUTINELOAD(MP,t5#11'1,1't'2)_' C $_ROUTINE1'0 LOADGEOr,f.1,RICANDMATERIALIDENTIFICA1,10N
C INTOCOMMONGAPPARAMETER(NI_E1-201NMB2,,6,N_3,,3_.NMB4,,6jN_B_,,4O) .
* COMMON/GAP/T1,T2,X(0) ,M(S),1'OL,BET,SI0_XM_CAP11CAP2j XKCOMMON/LD/LS(NMB1INMB2) ,XP(NMB1_N_2pN_4 ) _MATS(NMB1,N_2p N_31p
$ N_;(NMB1)COMMON/ARA/1'(N_5) jTO(N_5) ,C(N_5) pCD(N_5)j ICD(NMBS)pL(NMBS,2)
'_ DT'25.0L 1'1.TO( IT1)+DT
T2-1.0( IT2)-OT'; C LOADMATERIN.S: DO100 1"1,3
M(I )"MATS(MPjIS_I ).i 100 CONTINUE'/- C LOADGEOMETRYi IX)200 J.1,6X(J)"XP(MP,IS,J)i!: 200 CONTINUE
RETURN
i' END
r
i .
f
,t
A-35
00000002-TSG08
ORIGIt_I_L '_'""" "SUBROUTINE NODE OF POOR QUALI'iY
g THI S SUBROUTINESETSUP THE NODALNETWORKPARAMETER(..NMB1._201NMB2-6,N_]=_t NMB4-6=N_=40_ NMB6.101OOMMON/ NODE$/NN,I_TT, T1N11',TSINKIFIJ_TMPMAX(N_6)COMMON/GAP/T|,T2)THI.,TH2,TH_,THt,P,H,MI,_,M3,TOL, BET,SlG,XM, , '
S CAPJ,OAP2,XKOOM_N/I NIT/T$1'_Te TSTOPuTINPT_DTIM__P, NEXT=_TR IOf
$ METRII%METRIX_NItTP_1PFLAG,T.INI (NVBt] j,$ INKT(N_I )_XFI,J(NWB1)S MBP(N_(]_ I IN, I IN2
i OOMMONITAXITK(NIVB2)wXX(NNBS)i COMMON/TIME/NNDS_ODNVIORAD,ST_ I5BFG,NCD$: ODMMON/ARA/T(NMB5) _TO(NIV_) j C(N_5), OD(NMB5),ICb(N_) _L(NMg_2)i COMMON/LD/LS(NMBt,NMB2)eXP(NMI_IeNMB2,NMB4)_MATS(NMB1eNMB2,NMB_I),,': S NS(NMB1]
COMMON/PICT/NNI S(NI_'_'_31_NMB2)COMMON/TITLE/CHAR2_CH/_J_I,FNAM1,FNAI_BCOMMON/PRESS/PRESOHARACTER*4UNITt (2)CHARACTER*6UNIT2(2)
, OHARACTER*13OHAR1(NMB6)' CHARACTER_I0 CHAR2(NMB6)
OHARAOTER_20OHAR(7] _FNAM1,FNAM3DIMENSIONXXX(NNB_)DATAUNITI/_ IN._, t CM._/DATAUNIT2/_ DEGF_, _ DEGK_/DATACHAR/
'_ 1 _SLAB _,2 _RADI.ATtONGAP _3 _HONEYCOI_B _4 _CORRUGATED I5 _Z STANDOFF _,6 _THIN SKIN _,7 _ABLATORSUBLIMER _1
IC=OMETRC=METRIK+IDO70gO J=1, NN .I ST=LS(I,J)IF(ISToEQ, 1) GOTO 140
!i IF(IST.EQ.7) GOTO 140, GOTO 120 I140 CONTINUE
C DIVIDE SLABORABLATORINtO NX-1 LAYERSTHKNS=XP( I_J_1)MA=MATS(I,J,t)CALL PROP(TT,PRES,MA,RO_OP,XK,EP)DX=SQRT(DTIM_2.0_XK/(RO_CP) ] ,NX=THKNS/DX (IF(NX+I.GE.NMBS)GOTO ggg
NNIS(I_J)-NXTK(d]=THKNS/FLOAT(19)()
C ASSIGNNODENUMBERSANDINITIAL TEMPERATURES,NODENUMBERSFOR ..C EACHCONDUCTOR,NODEPOSITIONSFOR SLABANDABLATOR '..
DO130 K.,I_NXIC,,IO+J ,,,ICD(IC)=J '.
A-36 i
...... 00000002-TSG09
qll- -
lU"IC
IL= _C+1 ORl_t:,f./1LF,",._,r,;f?F,_L( tC,1 ),IU OF POOR £!IJAL|TyL( IC,2),,IL
' TO(IU)"TINITTO(IL)'TtNI.TT( 1U)=TO(IU)T( IL)"TO(IL)
, XX( II.)=XX(I U)+TK(J)1:_0 OONl'INUE
GO TO 7000120 CONTINUE
C ASSIGNNODENUMBERS,INITIAL TEMPERATURE_NObENUMBERSFOREACHC OONbUCTOR,NOOEPOSITIONSFORALL OTHERSTRUCTURETYPES
10,10+I' ICD(IC)"J
IU'IC.. IL=IO+I•: L( ICll )=lU
L(ICb2)=IL- TO( IU)=TINiT-,. TO(IL)=TINIT
T( IU)=TO(IU)T(IL)=TO(IL)XX(IL )=XX(IU) +XP(I,ap4)
;._ 7000 CONTINUENND$= ILNCD_=ICWRITE(9p769)WRITE(¢J_768)IVE_P(I )IF(METRIK.EQ.O)ATIN IT=TIN IT'459.6IF(METRIK°EQ.1)ATIN IT=TIN IT/1.8I F(METRIK.EQ,0 )ATSINK=T$INK'459o6I F(MET_IK.EQ*1)ATSINK=TSINK/1.8WRITE(9p'/21)AT IN IT, UNIT2(METRC),ATSINKwUNIT2(METRC)eFIJDO137 KK=J,NCDSNO_)1=L(KK,1)I F(METRIK. EQ.0)XXX(NOD1]=XX(NOD1)'12.I F(METRIK.EQ.1)XXX(NOD1)=XX(NOD1)*12**2,.54WRITE(9,770] NOOt,XXX(NO01],UNIT1 (METRC)WRITE(9,771)KKJST=ICO(KK]KST=LS(I sJST)WRITE(9_772)KST,CHAR(KST)
C WRITEOUTDESCRIPTIONOF NE'_ORKt, DO429 LL*I,3
MA=MATS(I, JST,LL)IF(MA.EQ.O)COTO 429WRITE(9,773) LL,CHAR2(MA) "
t 429 CONTINUE77_1 FORIV_T(1H_20XpOMATERIAL1,12pt = o,AtO)
NOO2=L(KK,2)I F(METRIKoEO°0)XXX(NOD2)=XX(NOD2)* 12°I F(METRIK°EQ,1)XXX(NOD2)=XX(NOD2)*12.'2.54WRITE(9,774) NOO2,XXX(NOD2),UNITt (METRC)
A,.37
®
'..............."" .... '* 00000002-TSGI0
,'v I
51JBROUTINE PICTUR(I IN_]d,MP) OF PO0_;: IjU/_Li i _._0 SUBROUTINETHAT_PRINTSA PtOTIJREOF THE STRUCTUREAT A I_ODYPOINT
PARAMETER(N_1.20o NMB2*6_N_lm], N1_4_6_NMB6_,IO,NI_EtT.100)= COMMON/LD/LS(NMB1wN_2) ,XP(N_ 1, N_2, NMB4),MATS(N_ 1, N_2 ohl_E3_),
$ NS(NMB|)COMMON/INIT/TST_T, TSTOP_T1MPT_OTIM__Pw NEXT_METRIOu
$ ME?RIK,MEI'I1IX, NSTPsI PFLk_jTINI (N_I), $INKT(N_I ) ,XFIJ (N_I),, $ MBP(N_I)elINw I IN2
OOMMON/PI OT/NNI $(N_1 ,N_2)COMMON/TITLE/OHAR2M_CHAR1,FNAMtt FNAM_COMMON/TITL2/OH_MAOTER©4 UNIT(2)OHARAOTER*20OHAR(7) j FNAM1,FNAM]¢HARAOI'ER_IOOHAR2(N_? } j CH/_L_(N_'/) _OHAR2M(N_6)CHARA_ER=I_OHAR1(NMB6)DIMENSIONZXP(NMB1,NMB2,NMB4)INTEGERANS1,ANS2_ANS4_ANS_DATAUNIT/t tN, t, _ CM,I/
0 NAMEOF EACHSTRUCTURETYPEDATACHAR/
1 _SL_ =_2 _RADIATIONGAP _,It _HONEYCOMI_ t,4 !OORRUGATED B,P BZ STANOOFF t,6 _THIN SKIN _,7 _kBLATORSUBLIMER _/
C CONVERTUNITS OF.MATDIMENSIONSFORPICTURE '.DO]_00 INCI"I,N_2DO_00 INC2.,1,NV£=4IF (METRIKoEQo0)ZV=(MP,I NC1,INC2)mXP(MP,INC1, INC2)'12°IF (METRIK.EQ.1)ZX_'(MP,INCJ, INC2)=XP(MP,INC1,INC2)e12.e2o54
300 CONTINUEMETRC,,METRIK �IFr,I IN3°EQ,9)GO TO ],
C IF PICTUREDISPLAYEDTO SCREEN(NODESNOT INCLUDED)DO2 1KJ"1, NMB7CHA_2(IKJ)=CHAR_(IKJ)
2 CONTINUEGOT01CONTINUE ',
C IF PICTUREPRINTEDTO OUTPUTFILE(NODESINCLUDED)
, DO4 IKJ=I_NMB6 iOHAR2( I KJ)-OHAR2M(IKJ)
i * 4 CONTINUE I,t 1 CONT[NUE !i C CREATETHE PICTURE I
!IJKml.f WRITE(IINS_619)MBP(MP) i
C TOPLAYERBOUNDARY
IF( I IN3,EQ,5)WRITE(I IN]_620) f:' IF( I IN._.EQ.g)WRITE(I IN_'/20) IJK
!i_ :' IJK"IJK+I ii'*, C LOOPI - NUMBEROF LAYERSFORTHIS BODYPOINT: t
, C J - LAYERNUMBER Ii
A-39 It
00000002-TSG12
(J MP - BODYPOINT NUNI_ER OF POORQUALITY0 I IN_ . 5 DI,S_AY TO SCREEN (NODESAVAILN_LE)C I IN3 " 9 PRINT TO OUTPUTFILE (NODE5NOTAVAILN_LE)
DO700 J"lwN_(MP)o SLAB
IF(LS(MP_J) .EO.1.AND,I IN_.I_Q.,5)tfRITE( I IN, p621)CH_2 (MATS(MPfJ_1) )e$ ¢It_(L$(MP, J) ),_P(MPp d_1),UNIT(MF.TRC)
IF(LS(MP, J).L_O.1,ANI3.I IN3.£Q,g)O0 TO IODC ABLATORS_LI_R
IF(L$(MPpJ) .EQ.7 .AND.I IN_.EQ,_ )WRIT(_(I IN3j521 )CH_2 (MATS(MP_J_t ) )_$ _AR(LS(MPwJ)) eZXP(MPwJi 1) IUNIT(METRC)
IF(LS(MP_J).EQ.7,ANO. I IN3.EQ.9)O0 TO 100C RADIATIONGAP
IF(LS(MP_J) .EQ.2) WRIT(;( I IN3w622)ZXP(MPeJ_1), UNIT(M£TRO)p$CHAR2(MATS(MPeJp1) )eCHAR(LS(MPeJ) ) i ZXP(MPeJe4)eUNIT(METRC)eSZXP(MPeJe2) eUNIT (NETRC)e_2 (MATS(MPeJe2) )
C HONEY_t_I F(LS(MPeJ).EQ.3)WRITE( I IN3_623)ZXP(MP,J_1) _UNIT(METRC)e
$CHAR2(MATS(MP,,J_1) ) eCHAR2(MATS(MP_J,3 ) )_CHAR(L$(MP_J) )SZXP(MP_J_4), U_,_IT(METRC)_ZXP(MP_J_2) _UNIT(MEI'RC)_$ CHAR2(MATS(MP_Je2) )
C CORRUGATEDIF(LS(MP,J) °EQ.4)WRITE(I IN3,624)ZXP(MP,J_1) pUNIT(METRC)
$CH_2(MATS(MP,J_1) ), CHAR2(MATS(MP,J_]t) )_CHAR(LS(MPeJ) ),SZXP(MP,Je4), UNIT(METI_C)eZXP(MP=J_2) _UNIT(METRC)_$ CHAR2(MAT_(MP,J_2) )
C Z STANDOFF1F(LS(MPeJ) .EQ.5)WRITE(I IN3_62_,)ZXP(MP,Je1) _UNIT(METRO)
$CHAR2(MATS(MP_,J_,1) ), _2 (MATS(MP_J,3) ),_AR( L$(MP,J) ),SZXP(MP,J_4) =UNIT(METRC)_,ZXP(MP_J_2) _UNIT(METRO)_$ CHAR2(MATS(MP_J_2) )
C THIN SKINI F(LS(MP,,J).EQ.6)WRITE(I IN3_626)CHAR2(MATS(MP_J_l ) )_
$ CHAR(LS(MP,J) ), ZXP(MP_J_4), UNIT(METRO)200 CONTINUE
C BOTTOMLAYERBOUNDARYI F( I IN3.EQ._)WRITE(I I N3_620)I F(I IN3.EQ.9)WRITE(I IN3_720) IJKIJK=I JK+IGOTO 700
1O0 CONTINUEC SLAB/ ABLATOR$UBLIMER(CONTINUED)
NX=NNIS(MP_J) - 1IF(NX,LE.O)GO TO 11NXO2=NX/2+I ,_DO 10 K=I_NXIF(KoEQ.1.AND°K°LT.NXO2)WRITE(I INJ_BO0)IJRI F(K.GT. 1.AND.K°LT.NX02)WRiTE( I IN3,801) I JKI F(K.EQ.NXO2)WRITE(I IN3_B02)IJK_CHAR2(MATS(MP_J, 1) )_.
_ $ CHAR(LS(MP,J) ) _ZXP(MP,J, J), UNIT(METRO)IF(K.GT.NX02.AND.K. LT.NX)WRITE( I IN3,801 ) I JKIF(K,GT.NXO2.AND.K.EQ.NX)WRITE(I IN_B03) IJK ,,I JK" I JK+I i
10 CONTINUE '_11 CONTINUE
A-40 ,,
00000002-TSG13
SUBROUTINEPROP(T1,P,MAT,RHO,CPpXK,EP) ORIIitlNAL P/:,_?_i_f.:tG UNITS AREB'I'U,FT,SEC,OR_LBM OF, IK}OR QUALI'(Y
C TALES A_E DENSlTYwSP,HT._C."NDU_IVITYjEMISSlV ITY" IN THATORDERANDREPEATED(_ IP i I
C T1 ,,TEMP_¢ MAT-MATERIALNUMBERC RHORDENSITY
: _ OP ,,SPECIFICHEAT• , C XC -OONDUOTIVITY
, C EP =EMISSIVITYi ¢
MDEN=(MAT-1)'4+1' I• ! MSCP_,MDEN+I
MOON,,M$CP+I' MEF'=_OON+I
; CALl. INTP(T1,P, MDEN,R-IO)'_ CALL INTP(T1,PjMSCP,CP)i CALL INTP(Tt ,P, MCON,,XK)
CALL INTP(T1_P_MEPwEP) •_ RETURN
I,!
Ip
°
'|,
-_ ',A-42 ' :
i '_l_= . _ -_" . . --_...._T,_ ........... _.-.E._,,-_ ,.-_- :'"" ........... Y .. _ " _ ......... ._ ".L='_,_,_.,'._,.._'.,g_..-.'Zx" r_';_: ",_ :'_.-'':':'}"
.... : :: ............... ?--'=...." " -"-" .... .............00000003
r"_ OFPOORqUALr_
SUBROUTINERGAP•. C SUBROUTINECOMRJ'rEsEQUIVN.ENTTHERMAL_NO(JCT_CE I'HROU_H
C R_IADION GAPCOMMON/GAP/T1iT2, TH1,TH2,TH_ITH, Pi,H,MJ,M2,H5jTOL,BET,$ IG,
$ XMI,OAPI,CAP2_XKP..,OHMON/PRES$/PRESl"TI=T1TT2=T2
: ?AO=TII1'90=T2DO 100 1=1_100
C FIND PROPERTIESOF UPPERANDLOWERSURFACESCALLPROP(TT1,PRES,M1_1_'101,OPI ,XK1,¢'P1)CALL PROP(TT2, PRES,M2,I_'I02,CP2,XK2,EP2)F1=1,0/EP1
: F2=1,0/EP2SF.,1.0/ (F 1+F2-1, O)YKI"XK1/THIYK2"XK2/TH2 .!
_: YK3=$IG%F* (TAO**2+'I'BO**2)* (TAO+'rBo)C COMPUTEINTERIORSURFACETEMPERATUREOF UPPERANDLOWERSURFACE ..
• ._, TA'( (TI *YKI+TE_O_YK3)/(YK1+YK3) )'mBET+( 1.O-BET)¢'T,';,O I_. I"6- ( (T2*YK2+TAO*YK_) / (YK2+YK3))_F..T+( I .O-BET)*TBO
TESTI"ABS((TA-TAO)/I"AO)" TEST2-AB$((TB...'rBo)/'1"8o)
: C CHECKFORCONVERGENCEIF(I'ESTJ,LT.TOL,/_,_D,TE$'I'2.LT,TOL)GOTO 200
": TT1=(T1+TA)/2.0TT2=(T2+_)/2.0
:_ TAO-TA• :" "rBo-1'B " ,i
1O0 CONTINUE,:. GOTO300 _ "
200 CONTINUE iC COHPUTEEQUIVALENTCONDUCTANCE i L
• XK=YK1*YKZ'mYK:3/(YK1'mYK2+YK1_YK3+YK2'mYK3] _i iXM=RH01*TH1+RH02*TH2 _ :iCAPt-RH01*TH1*CP1 , !iCAP2=RHO2*TH2*CP2 _ ,i
300 CONTINUERETURN "END i
_' e I:
f• ; t
; / :,, ;
A 43 ':.t1
t
00000003-TSA03
oFPOORQUALm' !SUBROUTINE_RIPF(NN)
0 SUBROUTINETO FIND RADIATION IN_EROHANGEFACTORSC GIVEN EMISSlVITIESeGEOMETRIO VIEW FACTORS,A_EAS UNING THEC NLPI_/ORKMETH_
i COMMON/SF/AR( 10), EPP( 10), P( 1O, 109, ASF( 1O, 1D) "DIMENSION m (10) pXJ(10) _XJN(10) wlq_lO(10)TOL-.O01BETA-. 5
' EMPOW=1000.0, N-NN.'., DO 100 I=I,N'" RI=FLOAT(I )
EB( I )'EMPOWERIRHO(I )=1.0"EPP( I )XJ(I)'EB(I)
1O0 CONTINUEC ITERATE ON RADIOSITY, XJ
DO 500 _I,50TESTM-1.0E-8DO 200 J=I,NSUMJF=O.OFt,,EPP(J ) / ( I.O-RHO(J)*F (J, J) )_EB ( J)F2-'RHO(J) / ( 1.0-FHO(J )*P (J, J) )DO 300 K,,I_NIF(J,EQ.K)GO TO 300
_,, SUMJl_=SUMJF+XJ (K) *F (Jp K)300 CONTINUE
Xj N( j )=(1.0.BETA) _Xj (j)+BETAM(F I+F2_SUMJF) _ ,TESTmABS(XJ ( J) -XJ N( J ) )/XJ ( J ) iIF(TEST. GT°TESTM)TESTI_'TESTXJ(J)=XJN(J)
200 CONTINUEI F(TESTM.LT.TOL)GC) TO 600
500 CONTINUE600 CONTINUE
C OOMPUTENET EXCHANGEBY RADIOSITY DIFFEI_t"qOEC COMF:'UTEAREA*SCRIPT "F" BY DIVISION BY BLACKBODY EMI$SIVE PO_ER
DO 800 1"1,NDO 900 J'lpNASF(IwJ)=O.o ,IF(I.E_).JPGO TO 900ASF(I, J)-AR( I )*F (I, J)*(XJ ( I )-XJ (J))/(EB(I )-EB(J)) ,
900 CONTINUE _.
800 CONTINUE IRETURN iEND I
It
I
P
' i• i
A-44 ' It
" "00000003 TSA04: _o".",,-._,:'::--'-...................... _
ORIGINAL PA_i;{_r,_iOF POOR QUALITY
SUBROUTINE STANDC SUBROUTINETO COMPUTEEQUIVALENTCONDUCTANCE,MASS,CAPACITANCEC OF Z ._;TANI:)OFFSTRUCTURE
COMNON/GAP/Tt,T2, THI, TH2,,TI'.I3,TH,P,H, N1,N2,M3,TOL,BET,SIG,: t $ XM.,OAP1,0AP2,XK
P.,OHMON/FAOI'/XX(1D_2! jyY(IOm2)OOMMON/$F/AR( 1O)wEPP( 1O), F_10,1 O), ASF( 1O,10)
_" OOM_N/P_ESS/Pf<ESi; , H2-_H/2.0:. P2-P/2,0:, CONK"I.OEB: T3"(TI+T2)/2,0L_ VOL-TH1+11.12+(2. O_+TH)*I'H3/P
C SET (:X)ORI_INATESOF INTERIORTO COMPUTEVIEWFACTORS
i DO 100 1"1,4_f XT'O,O:_.. YT=O.O
DO200 J"1,2) ,,
iI:_._ IF(I.sQ.1.AND.,J,EQ.1)YT,THIF( I. EQ,1,AND.J. EQ.2)XT"Pi IF( I. EQ.2.AND.J. EQ.2)XT'P,i IF(I E_h.3.AND,J.EQ,1)XTIP
!_i IF ( I :EQ,3.AND,J. EO.2) YT"TH1F( I. EQ,4, AND.J, EQ,2)YT*TH
_ YYII,JI=YI"; 200 CONTINUE
1O0 CONTINUEC COMPUTEINTERIORVIEWFACTORS
CALLVFAO(4) :.DO1000 I-1,100130,,_CALL PROP(T1,PRES,M1,1_.101,CP1,XKt ,EPP(1) )CALLPROP(T2,PRES,M2,RHO2,CP2,XK2,EPP(2))CALLPROP(I'3,PRES,M.3,1_'IO3,CP3,XK:_,EPP(3)) "EPP(4)"EPP(3)IF(I,NE.J)GO TO 1001
C GETRADIATIONINTERCHANGEFACTORSCALL SRIPF(4)
1001 CONTINUEC COMPUTECONDUCTIONPATHVALUE
ClA,*XK1*THJ/P2ClB_,CONK*TH3/2.0ClC,,XK3*TH3/(2.0_2)Cl-C1A_CJB_IC/(CIA_IBeC1A_IC+O1B*C1C)
t DI S-P2-(H+TH3)/2.0C3A-XKI*TH1/DI $C3E_,,CONK*(H+TH3/2.0) "C3C"XK3*TH_I(2. Ottt2 ) :,
' C3-C3A_3B_3C/(O:SA*C3B+C3A*C3C+C3B*O3C) ""02(>'C30C2BJC3B
C2AmClAQXK2/XK1 -_C2.-C2A_C2B_2C/(C2A*C2B+C2A_2C+C2B*C2C)C4A=C1A*XK2/XK1
A,.45 ,k
I"
.... :05o-6-6oo3
@ @C.,41PClB OF POOR QUALITYC4(>,CLC
O =fVl_TER_I ATION PATH VE UI_Sel =ASF( 1,4 ) IS IG_'(T|¢t2+13 w*2)_(Tl +T'_)R2=ASF( 1,3 )*$ IG_(T1_,2+'1_t a2) t(T1 +T3)R3•ASP(4,2) WSIG¢(T_"2+T2 _'_2)* (T._+T2)R4=ASP(_,2) *$ IG*('13' 12+T2"2 ) '_¢T:5+T2)R_"ASF(1,2) *$ IO*(T14v*2+T2**2) t (T1+T2)
O FI ND NEWSTANDOFF'TF.MPERATURE J'"13_ (T1*(R1+R2+CI+C_)+T2_'(C2+R3+O4+R4))/
$ (R1+R2+R.3+R4+CI+C2+C3+CA)TS=( t .O-BET)*T3+BET'eT'JNTEST=/_B${T3-'r'._0)/T5IF(TEST.LT.TOL)GOTO 2000130,,T:S
1000 CONTINUE2000 CONTINUE
C FIND MASS,OAPACITORS,ANDEQUIVALENTCONDUCTIVITYXM,,TH1'_RHOt+TH2*RHO2+RH0._• (2.0 q'l+TH)*THZ,/PCAP1,,XM/2.0*CP1CAP2=XM/2.0*CP2T12=_S (T1-'1"2)TI3,._S(T1-T3)_' (T12'_R._+T13"(C2+C4+P,.3+R4) )/PXK=Q/T12RETURNENb
A-46
O0000003-TSA06
.:, OF POOR QUALII'ySUBROUTINE STRUCT¢M,N)
0 SUBROUTINETHATHANDL£_STRUCTUREFILEC EITHERADI_INGN_ STRUCTURESORCOPYINGOk.DSTRUCTURE
PARAMETER,_Nr,B1,20,NMB2"6,NI_3-3_NMB4,,6jNMB6-10I; COMMON/1NIT/TST.ART_I"STOPw.T IMWI',OTIM,NBp,NEXT)METRIC_ .
$ ME1'RIK,METRIX_NSTi_,IPFLAI_TINI (NMB.1)j SINKT(NIMBI)_XFiJ(NMB1)w_: $ MBP(NMB1),IIN_I IN2
'. O01VHONITI.TLE/CHAR2,CHA_Ii _'NAMtjFNA_;: '* 00MMONtLD/LS(NMB1d,NMB2)oXP(NMBt, NIvB2_NMB4) oMAT_(NMB1, NMB26NMB.3):;_ $ NS(NMB1): *, CHARAOTER_IOCHAR2(NMB6)
CHARAOTER_I)CHAR1(NMB6)OHARACTER_20FNAM1pFNAIC5
:'.. CHARACTER*SOLABEL1,L_EL2.,.=_ I FLAG"9999
!: OPEN(UNIT"t O_NAIV_["FNtV4.3oTYPE"tOLDl, RECORDSIZE"132):._ , IF(M,EQ.Z)GO TO 500_ 0 LOOKUPOLDSTRUCTUREFROMSTRUCTUREFILE!1 10 WRITE(I IN2,20)MBP(N)_. 20 FORMAT(Ill**WHATIS THE STRUCTURENUMBERFORBODYPT. t,15ot t O)
_ - READ(IIN, _, ERR.IO_END-1234)ND" C LOCATESTRUCTUREBY STRUCTURENUMBER35 READ( 10,40, END"gO*0)NA
i- 40 FORMAT(15)IF(NA.EO.ND)GOTO 150IF(NA.EQ. IFLAO)C-,OTO 9000GOTO :_S
: 900i FORMAT(1H_UN_LE TO FIND STRUCTURENUMBER_1_)
C REACHEDENDOF FILE _ITHOUTLOCATINGSTRUCTURENUMBER9000 WRITE(IIN2,gO01)ND
"_ REWIND(UNIT.1O, •C,OTO 10
• 1_0 CONTINUEBACKSPACE(UNIT-IO)
; C OBTAINSTRUCTUREDATAFORDESIREDSTRUCTURENUMBERREAD(10,5_)NA,NS(N), N.,'1,N4
;i 5_ FORMAT(I_,_X,_ (15,5X))'_ READ(10,60)LABEL1, LABEL2i_, 60 FORMAT(_X_,MO_/_,SX_,ABO)i!, : WRITE(IIN2,?O)NA,LABEL1,L_EL2
_ 70 FORMAT(/,fOX,_STRUCTURENUMBER* t_,15,/,IX, A_O_/_IX, ASO)_i" _ DO200 I"1 ,NS(N)
! READ(10_,21O,END"1000) LS(N, I ) _(MATS(N, I, J) _,J"l eN_)," $ (XP(N, I_J),J'H_N4)
FORMAT(lOX, I_o_ 15_6E1_.'/)210200 CONTINUE
i 00 1'0 1000C
,_ C ADDNEWSTRUCTURETO STRUCTURE'FILE500 COI_TINUE
il _10 WRITE(IIN2_20)MBP(N)520 FORMAI'(1H_tWHATIS THE STRUCTURENUMBERFORBODYPT. telS)_._ _ READ(IIN_,_ERR-51O_END-t2.34)ND',: !: C SEARCHTHROUGHSTRUCTUREFILE
• _* i* _1 DO _O IK"I_IOO0
!'_ A-47
I
•- 00000003 "
A-4B I_il
..... - _ = .... = ....... --_ _ : ..... == - . , . _ _ : _ : .... = .
............."_................._-"................" ................. O0000003-TSAO8
ORIGINAL P/_,_;.E_l'OF POOR QUALITY
SUBROUTINESUBPR(X,N_Y)C SUBROUTINETO.R£1'URNTEMPERATUREOF SUBLIMATIONANDHEATOFC $UBLIMATION_YjGIVENPRES_UREjX,CC N =--I RETURNTEMPERATUREO N • 2 RETURNPRESSUREC X = PRESSUREC
PARAMETER(N_0=41)e, COMMON/OSUB/CC$(2, NVB9]
dilC_ (N, 1)J1,Ji2XLSTl¢OS(Nj 2)XHSTJ.CCS(NpJl )IF(X.EQ.XLST)eO TO 700IF(X,LT, XLST)GOTO 100IF(X,GT,XHST)GOTO 200JT=4
500 CONTINUE_ C SEARCHINDEPENDENTVARIABLE::.' IF(0C$(N,JT)"X ) :_00,600,400'" ._OO CONTINUE'_: C GOBACKANDCHEOKANOTHER•" JT"JT+_:' (30 TO _,O0
400 CONTINUE_.:. C X LIES BETWEENCCS(N,NJ) ANDCC_;(N_N.3)"_ N1"J1'-2
N2-'N1+1N_-JT
;-'.: N4"N_+|;:'_ GOTO900'_',' 600 CONTINUE
C X EQUALTO A INDEPENDENTVARIABLENT=JT+IYmCCS(N, NT)GOTO 1000
?00 CONTINUEC X EQUALTO LOWESTINDEPENDENTVARIABLE
Y=CCS(N_3)GOTO1000
100 CeNTINUE ',C X LE$_ THANLOWESTINDEPENDENTVARIABLE_,EXTRAPOLATE
N1"2 iN2,:_• 10"4 iN4=5
i 00 TO900 it• , 200 CONTINUE._ p_ C X GREATERTHANHIGHESTIN_)EPENDENTVARIABLE4,EXTRAPOLATE i
N1"2tiJ-2" N2=N1+1i I
,.: N3"2_JJ N4-N3+l !
t900 CONTINUE
/i_. ¢
00000003-TSA09
C FIND5LOPEANDINTERPOLATE$L=(C.,C$(N,N4]-C(_(NwN2]]/(CCS(NpN_)-C_S(N_NI)]Y,,C_ (N_N2]+SLe(X-CC$(N,NI] )
1000 (_ONTINUERETURN.END ,,
OF PoOR qClALIT_
•-.-_,
I
4_-->
I
J,
A-50 i!t
00000003-TSA10
l_i_::;h,.m-,_f, '_*,_,: ,.-IOF POOR QUALilY
SUBROUTINE 11'11NSC SUBROUTINETO I_ETCAPIOITANOEwMASStANI:)(X)NOUCTOROF INFINITELY(_ CONI:)UOTINaORTHERMALLYTHIN.PLATE
(X)MMON/OAWT1_T2,TH1,TH2_1_13e11'1,P_H_M1wick,M31TOLmBET,$IO,XMj$ CAP1wCAP'2_XKCOM_N/PRES$/PRES "Tm(TI+T2)/2,0CALL_OP(T, PRES,M1jI_O,GP,XKpEP)
:_ CAPi*RO_CPITH/2oOOAP2aOAP1X_ROeTHXK"I ,OE10RETURNEND
I
i1. i
It
1
!
!
b
A-S1 ]q
L
l
°°....°............. " ............................................. 00000003'TSA11
ORIGINAL,PAGE 18;OFpoor QUALITY
SUBROUTINETMStI_P(OT$MjI)C SUBROUTINETO (:_MPUT£8T/_LE TIME STEP
PARN4ET_R(NMB!,20_N_2-_N_3=3_N_4,6wN_,40)COMMON/TIME/NNDS_(:X}NVoCRAD+ST/_i_ISBPGjN_DS¢OMMON/ARA/1'(NIvB51,TO(N_J) j C(NHB5)_OD(NMB5);ICD(NMB5)pL(N_,2COMMON/LD/LS(NMB1eNMB2),XP(N_I, N_2, N_4 ) ,MATS(N_I ,N_2e N_5 ),$ N$(NMBI)DTSM=I.OE30
C GENERAl.HEATBALANCENODE ..DO379 J"leNND$IF(J.NE,1)GO TO 380
C SURFACENODEC1"CONV+CRADC2=CD( 1)GO TO 381
380 DONTINUE :IF(J.NE°NNDS)GOTO 370 .
C LAST NODEC1=OD(NODS)C2"0.0GOTO 381
3"/0 CONTINUEC GENERALNODE
JMI=J-1CI=CD(JM1) iC2"OD(J)
381 CONTINUEC IF ADJACENTCONDUCTORS/I_E THIN SKINwSKIP
IF(C1.GT.I.0Eg) GOTO 37gIF(O2.BT.l.0Eg) GOTO 379 ";
"_ STEST-C(J ) / ( (C1+C2)*ST/_ )IF(STEST.LT.DTSM)DTSH=STEST
379 CONTINUEC THIN SKIN ALGORITHM
IF(ISBFG.EQ.O)GOTO 382DO387 KAP=I,NCDS .:JJ" I CD(KAP) '!JN=LS(I_jj]IF[JN.NE.6)GO TO 387 ,:NI=L(KAP,1)N2"L(KAP,2)KP1=KAP+1KM1=KAP"IIF(KAP°EQ,1)GOTO 388IF(KAP.EQ.NCDS)GOTO 389
C GENERALTHIN SKIN NODESTEST,,(C (N1)+C(N2))/( (CD(KM1)+CD(KP1)) *STAB) 't .,GOTO 390 '
368 CONTINUE ;"C SURFACENODE ',
STEST=(C(N1)+C(N2) )/( (CONV+CRAD+C.,D(KP1))*ST/_) ILO0 TO 390 ,
389 CONTINUE • ',C ADIABATICBACKSIDE _."
STEST=(C(N1)+C(N2))/(CD(KM1 )_ST/_) _
A sz
.... :...... -....... - TsAI_" ....... ' .... "........ 00000003
-1gOOONTINUE
IF(_TEST,LT,DT,_M)DT$__TEST387 CONTINUE ili ,182 CONTINUE
RETURNEND "
l
I
' t
i'
t
t
"_ A-S3 !i
00000003-TSA13
i
ORIGINAL P&G_, l_i
S_ROUTINE:VFAC(NN) OF POOR QUALITY¢C THEORYOF OROSSEDSTRING_ (PLANAR2-0)¢
COMMON/FACT/XX( 10,2} ,YY(10,2)COMMON/8F/AR(i0) wEPP(10)pF(10i 1O)eABF(10,1 O)N.NN
• DO 100 I"IpNSUMF=O,O
C FIND AREAOF SURFACEICALL DIST(I,1,1,2,AR(I ))
:°' DO200 J-lwN': C FIND LENGTHSOF CROSSEDANDUNCROSSEDSTRINGS
CALLDIST(I_ljJelID11)CALLDIST( i p1pJp2,D12)
: CALLDIST(Iw2_J,l_021)CALLDIST(II2_Jp2_D22)
•; C FIND WHICHARECROSSED$1-D11+D221 S2,,D12+D21-t
_' A1=Sl
i i A2,,S2
IF(S1.GT.$2)CO TO 201AI=S2AZ=S1
201 CONTINUEF(I,J)=O.O
_i IF(I.EO.J)CO TO 200• F(I_ J)=(A1-A2)/(2.0*AR( I ) )
C SUMCF VIEW FACTORSSHOULDEQUALONE_FORENCLO_;URE
li SUMF=SUMF+F( I _J)
200 CONTINUE1DO CONTINUE
_I RETURN. END i
,i
i._ _A-54 !
.!
i
= =-- ...... = _:
00000003-TSA14