astm d4169-14 and astm d4169-16 truck protocol vibration ...โฌยฆย ยท astm d4169-16 vs stricter real...
TRANSCRIPT
The ASTM D4169-16 applies to shipping containers
and systems. This standard is composed of three
level types and each one follows a definite duration to
complete the test sequence. According to the
distribution cycle and to the packaging system the
test sequence can be repeated on several sides.
The real truck PSD has been raised in order to be at the same
level as the ASTM D4169-16 PSD. The raising coefficient has
been determined by calculating๐บ๐ ๐๐๐๐ฃ๐๐๐๐๐ ๐ด๐๐๐ ๐ท4169โ16
๐บ๐ ๐๐๐๐๐๐ ๐ก๐๐ข๐๐ = 7.58
1,00E-06
1,00E-05
1,00E-04
1,00E-03
1,00E-02
1,00E-01
1,00E+00
1,00E+00 1,00E+01 1,00E+02
Pow
er S
pect
ral D
ensi
ty (
gยฒ/H
z)
Frequency (Hz)
ASTM D4169-16 VS real truck
High Level - GRMS=0.70 G Medium Level - GRMS=0.54 G
Low Level - GRMS=0.40 G PSD real truck - GRMS=0.062 G
PSD real truck raised - GRMS=0.47 G
Result of the
three levelsModified Gaussian equation:
a=1.04
b=0.40
For the experiment, a 20-minute-duration test has been applied to the system
(composed of the recorder stuck to the vibration table). The test duration
proportionality between the levels has been saved.
๐น๐๐ป๐๐๐๐๐๐๐๐๐ ๐บ๐๐ข๐ ๐ ๐๐๐ = 2๐(2๐๐2)1๐= 0.95
Severity factor:
๐น๐๐ป๐๐บ๐๐ข๐ ๐ ๐๐๐ = 2ฯ(2๐๐2)12= 1.04
๐ =๐น๐๐ป๐๐๐๐๐๐๐๐๐ ๐บ๐๐ข๐ ๐ ๐๐๐
๐น๐๐ป๐๐บ๐๐ข๐ ๐ ๐๐๐
c=1.82
x0=0.03 (noise)S tends to 1 when the distribution tends to a Gaussian distribution.
If S<1 the occurrence probability of very low acceleration values is higher and the
severity is weaker.
FWHM (Full Width at Half Maximum):
๐ = 0.91 < 1
-0,1
0,1
0,3
0,5
0,7
0,9
1,1
1,3
-3,00E+00 -2,00E+00 -1,00E+00 0,00E+00 1,00E+00 2,00E+00 3,00E+00
Pro
babi
lity
dens
ity
Acceleration (G)
ASTM D4169-16
1min 40s ASTM D4169-16 high 5min ASTM D4169-16 medium
13min 20s ASTM D4169-16 low ASTM D4169-16 all profiles
a indicates the occurrence probability of very low
acceleration values
b indicates the values dispersion
c indicates the slope of the curve extremities and
gives the curve a leptokurtic style when c<2
๐(๐ฅ) = ๐๐โ0,5
๐ฅโ๐ฅ0
๐
๐
Determination coefficient : rยฒ=0.99
Introduction
Everyone knows that the aim of a packaging is to protect the product it contains. However during the packagingโs life cycle many constraints can occur, especially
during handling and transport. That is why each packaging has to be tested before any launching. Standards have been developed in order to simulate transport in
laboratory and one of these standards has recently changed. Indeed the ASTM International (American Society for Testing and Materials International) D4169
standard, which simulates the vibrations during transport by truck over the packaging, among other things, has evolved so as to be closer to an actual transport by
truck. In terms of acceleration probability density, an actual transport by truck is not a Gaussian[1], in fact it approximates a modified Gaussian[2]. The present work
shows in which way the current standard represents an actual transport by analysing its PSD, its acceleration probability density and by comparing them to those of
the former standard and of an actual transport by truck. Moreover in each case the severity factors will be calculated based on the method of S. OTARI[2].
As we observed at the beginning of this study, the ASTM D4169-16 PSD is more likely to approximate an actual transport by truck than the ASTM D4169-14 one. This
statement is confirmed by the study of the probability densities: an actual transport by truck is characterized by a modified Gaussian and the current standard is closer
to a modified Gaussian than the former one, which is composed of Gaussians. In conclusion the ASTM D4169-16 is more likely to represent the constraints
encountered during transport. However the severity factor of the ASTM D4169-16 is equal to 0.91 while the actual transportโs one is equal to 0.41. Therefore a small
improvement can be brought to the current standard so as to get closer to an actual transport severity factor. For example the levels durations can be adjusted in order
to fit to one particular transport type.
Experimental set-up
Sampling frequency = 500 Hz
Continuous recording over the z axis
Full scale = 20.0 G
Filter = 250 Hz
Recorder: SAVER 3X90 Vibration table: LANSMONT 10 000 TTVII
x
zy
ASTM D4169-14 and ASTM D4169-16 Truck Protocol Vibration Comparison
Anne-Sophie BONNINa,b,c, Victor HUARTa, Nicolas KRAJKAa, Jean-Baptiste NOLOTc, Serge ODOFb,c and Damien ERREb,c
aMETROPACK 30-32 rue du Capitaine Georges Madon ZAC Croix Blandin, 51100 REIMS, FRANCEbGRESPI/Universitรฉ de Reims Champagne-Ardenne, REIMS, FRANCE
cESIREIMS-ESIEC รcole nationale Supรฉrieure dโIngรฉnieurs de Reims, REIMS, FRANCE
3 esplanade Roland Garros, 51100 REIMS, FRANCE
Level Duration (1 hour) T=12t
Low 40 minutes 8t
Medium 15 minutes 3t
High 5 minutes t
Level Duration
Low13 minutes
20 seconds
Medium 5 minutes
High1 minute
40 seconds
PSD (Power Spectral Density)
Probability Densities
[1]ROUILLARD V. โOn the Non-Gaussian Nature of Random Vehicle Vibrationsโ, Proceedings of the World Congress on Engineering 2007, Volume II, July 2-4, 2007[2]OTARI S. โStatistical Characterization of Acceleration Levels of Random Vibrations during Transportโ, Packaging Technology and Science, 2011. DOI: 10.1002/pts.926
The ASTM D4169-14 level II has been
chosen for the comparison because
its coefficient of determination is
higher than those of levels I or III.
rยฒlevel I=0.90
rยฒlevel II=0.99
rยฒlevel III=0.98
yi
y'i
๐2 =ฯ๐(๐ฆ๐ โ เดค๐ฆ)(๐ฆโฒ๐ โ เดฅ๐ฆโฒ)
ฯ๐(๐ฆ๐ โ เดค๐ฆ)ยฒ โ ฯ๐(๐ฆโฒ๐ โ เดฅ๐ฆโฒ)ยฒ
2
-0,1
0,1
0,3
0,5
0,7
0,9
1,1
1,3
-3,00E+00 -2,00E+00 -1,00E+00 0,00E+00 1,00E+00 2,00E+00 3,00E+00
Pro
babi
lity
dens
ity
Acceleration (G)
ASTM D4169-16 VS ASTM D4169-14
ASTM D4169-16 all profiles ASTM D4169-14 level I
ASTM D4169-14 level II ASTM D4169-14 level III
The ASTM D4169-16โs profile is less severe than a Gaussianโs.
For the experiment, the three levels
have been applied separately to the
system (composed of the recorder
stuck to the vibration table). Each
test sequence lasts 20 minutes.
-0,1
0,1
0,3
0,5
0,7
0,9
1,1
1,3
-3,00E+00 -2,00E+00 -1,00E+00 0,00E+00 1,00E+00 2,00E+00 3,00E+00
Pro
babi
lity
dens
ity
Acceleration (G)
ASTM D4169-14
Level I
Level II
Level III
ฯlevel I=0.70
ฯlevel II=0.50
ฯlevel III=0.35
The severity factor S has been calculated
for level II by using ฯlevel II and GRMSlevel II.
Slevel II=0.96
ASTM D4169-16 VS stricter real transport at the same GRMS
๐ = 0.41
Adjusted real transport modified Gaussian
coefficients:
a=0.71
b=0.36
c=1.02
x0=0.03 (noise)
The truck recording was made on several types of roads, the recorder was fixed directly on the floor of the truck.
Determination coefficient :
rยฒ=0.99
-0,2
0,0
0,2
0,4
0,6
0,8
1,0
-3,00E+00 -2,00E+00 -1,00E+00 0,00E+00 1,00E+00 2,00E+00 3,00E+00
Pro
babi
lity
dens
ity
Acceleration (G)
Adjusted real transport ASTM D4169-16 all profiles
aASTM D4169-16>aadjusted real transport: less low
acceleration values in the adjusted real
transport than with the standard
bASTM D4169-16>breal transport: the values are more
dispersed with the standard than in a real
transport, but the difference is quite thin
The ASTM D4169-14 applies to shipping containers
and systems. Three levels are available to test the
system: level I, level II or level III. Only one level is
applied to the system during the test sequence. The
test duration and the sides tested depend on the
distribution cycle.
The truck recording was made on several types of
roads, the recorder was fixed directly on the floor of
the truck.
1,00E-06
1,00E-05
1,00E-04
1,00E-03
1,00E-02
1,00E-01
1,00E+00 1,00E+01 1,00E+02
Pow
er S
pect
ral D
ensi
ty (
gยฒ/H
z)
Frequency (Hz)
ASTM D4169-14 VS real truck
PSD real truck - GRMS=0.062 G Level I - GRMS=0.73 G
Level II - GRMS=0.52 G Level II - GRMS=0.37 G
GRMSoverall ASTM D4169-16=0.47 G