creep and tensile properties of direct metal laser...
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![Page 1: Creep and Tensile Properties of Direct Metal Laser ...sco2symposium.com/papers2018/materials/168_pres.pdf · Rupture Time vs. Stress for Inconel 738 C738 - 0.2% C738 - 1% C738 - Rupture](https://reader035.vdocuments.us/reader035/viewer/2022081614/5fc58984f532174f1f6d627d/html5/thumbnails/1.jpg)
Creep and Tensile Properties of Direct Metal Laser Sintered
(DMLS) Inconel 738LC Coupons and Comparison to
Cast PropertiesJason Wilkes, Ph.D.
Kevin HoopesJon Helfand
© Southwest Research Institute 2012 1
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sCO2 cycle promises more compact turbomachinery than supercritical steam or helium cycles
2
Adapted from Dostal (2004)
5 mSteam turbine: 55 stages / 250 MW
Mitsubishi Heavy Industries (with casing)
Helium turbine: 17 stages / 333 MW (167 MWe)X.L. Yan, L.M. Lidsky (MIT) (without casing)
sCO2 turbine: 4 stages / 450 MW (300 MWe)(without casing)
Note: Compressors are comparable in size
1 m
Source: Wright (2011)
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A 10MW 275 bar 705°C compact integrally geared radial inflow turbine was designed under DOE-EERE 7114
© Southwest Research Institute 2012 3
First Stage• Diameter ~ 230 mm• Speed ~ 18000 rpm• Power ~ 3.5 MW
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Whoever said that compact turbomachinery was a good thing never machined a single piece shrouded impeller from Inconel 740
© Southwest Research Institute 2012 4
Quoted Estimate• 500 hrs. on the
machine• $100/tool *500 tools• NRE $10k/wheel
~100,000 USD
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How else can a high temperature closed sCO2 impeller be fabricated?
5 axis edm – Very expensive Cast Alloy – Received several no-quotes DMLS?
© Southwest Research Institute 2012 5
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DMLS, SLM, AM Process Overview
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Published data are scarce Stationary and rotating parts have
been “printed” Published application of DMLS to
rotating parts limited to development test rigs• 100,000 rpm 1380 °F Inconel GT
wheel (Inconel 718)• Authors’ experience with
microturbomachine closed impellers and turbines
− Overspeed test successful at 1140 ft/s− Overspeed test to failure at 1403 ft/s
DMLS in Turbomachinery
Flow Straightener for Helicopter Engine (Killian 2013)
100 krpm GT wheel (Killian 2013)
How does a superalloy manufactured additively compare to cast or forged superalloys?
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A total of 24 samples were printed
© Southwest Research Institute 2012 9
14 XY samples 10 Z samples
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Points were selected to allow for a direct comparison to cast Inconel 738 properties and additionally design stresses at elevated temperatures
© Southwest Research Institute 2012 11
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Raw data shows that creeps faster in the XY orientation than in the Z orientation, and that DMLS creep strength is inferior to cast creep strength
© Southwest Research Institute 2012 12
10 -1 10 0 10 1 10 2 10 3 10 4
Time (hours)
50
55
60
65
70
75
80
85
90
95
Stre
ss (k
si)
Rupture Time vs. Stress for Inconel 738
C738 - 0.2%
C738 - 1%
C738 - Rupture
P738LCX Y
- .2%
P738LCX Y
- 1%
P738LCX Y
- Rupture
P738LCZ
- .2%
P738LCZ
- 1%
P738LCZ
- Rupture
.2% XY Rupture
1%
ZXYRupture
ZXY 1%
1300°F/ 705°C
1450°F/ 788°C
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© Southwest Research Institute 2012 13
38 40 42 44 46 48 50 52 54 56
LMP=T*(20+log(t))/1000
0
10
20
30
40
50
60
70
80
90
100R
uptu
re S
tress
(ksi
)Conventional Rupture LMP
C738
C738LC
P738LCX Y
P738LCZ
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© Southwest Research Institute 2012 14
38 40 42 44 46 48 50 52 54
LMP =T*(20+log(t/ ))/1000
0
10
20
30
40
50
60
70
80
90
100St
ress
(ksi
)Strain Based LMP
C738
P738LCX Y
P738LCZ
P738LCXY,Rickenbacher
P738LCZ,Rickenbacher
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© Southwest Research Institute 2012 15
1100 1150 1200 1250 1300 1350 1400
Temperature ° F
-10
0
10
20
30
40
50
60
70
80
90St
ress
(ksi
)allow
at 0.2% Strain versus Design Temperature
C738
P738LCX Y
P738LCZ
P738LCXY,Rickenbacher
P738LCZ,Rickenbacher
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© Southwest Research Institute 2012 16
1100 1150 1200 1250 1300 1350 1400
Temperature ° F
0
10
20
30
40
50
60
70
80
Stre
ss (k
si)
allow at .67 Rupture versus Design Temperature
C738
C738LC
P738LCX Y
P738LCZ
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Tensile and Yield properties in the two orientations were generally similar
600C• 20% ↓ yield• 20% ↑ UTS
700C• 5% ↓ yield• 10% ↓ UTS
© Southwest Research Institute 2012 17
0 200 400 600 800 1000 1200 1400 1600 1800
Temperature [F]
50
75
100
125
150
175
200
Stre
ss [k
si]
P738LCX Y
t
P738LCX Y
y
P738LCZ
t
P738LCZ
y
C738 t
C738 y
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Per plastic collapse analysis, the impeller should survive 100,000 hrs. without failing due to creep.
© Southwest Research Institute 2012 18
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Conclusions
Z Orientation• Allowable stress for 100,000 hr service life at
700°C is 5-10% lower than cast Inconel 738LC XY Orientation
• Allowable stress for 100,000 hr service life at 700°C is 51% lower than cast Inconel 738LC
Allowable stresses are still sufficient to build the designed impeller and survive creep.
© Southwest Research Institute 2012 19