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Transcript of 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code...
![Page 1: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/1.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Progress on the Unified Materials Response Code (UMARCO)
Qiyang Hu1, Jake Blanchard2, Mike Andersen3, and Nasr Ghoniem1
1: University of California, Los Angeles2: University of Wisconsin, Madison
3: Ratheon Corp.,/ UCLA
![Page 2: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/2.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
A. Aoyama* : Hibachi Foil M. Andersen* : Roughening J. El-Awady* : Isochoric Heating A. Hyoungil : Spallation Experiment M. Narula : Carbon Diffusion D. Seif* : Helium: Rate
Theory/KMC C. Erel : Structural Analysis (SiC) K. Nagasawa: Helium: KMC
— * US Citizen
Manpower Development at UCLA
![Page 3: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/3.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
UMARCO
Target Spectrum Material: SRIM Material: Mech Prop.
Ion Implant. Profile Vol. Heat Rate
Temperature Module
Transient stress strain field Module
Constitutive Lawelastic, plastic
Fracture Mechanics
Module
Inertial Stress Wave Module
Diffusion Module:Ion, Helium,
Bubbles, Carbon
Fortran’90
Surface Roughening
Module
![Page 4: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/4.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
In this meeting, we present: Crack Nucleation: Global-Local Surface
Roughening Module: Effects of Surface Plasticity; Roughening under Pulsed Conditions
Crack Growth: Fracture Module added in UMARCO: Stress intensity factor
For single crack For parallel cracks
Inertial thermal stress wave in UMARCO: Longitudinal wave stress:
With time ramp
![Page 5: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/5.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Vn
Splines Free Surface (Traction = 0)
y
x h(x,t)
∞∞
tt
Local Surface Roughening Model
*
2
2
21
121
tts
b
ijij
E
E
Global model gives us the boundary bulk stress.
Michael Andersen, Akiyuki Takahashi, and Nasr Ghoniem, “Saturation of Surface Roughening Instabilities by Plastic Deformation,” APL, In Press
![Page 6: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/6.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
![Page 7: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/7.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Stress Evolution without Inertial Effects
Steady State Tangential Stress is 700 MPa
Too fast to have an effect
1
32
7
8
56
4
![Page 8: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/8.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Initial Surface & Plasticity EffectsHigh Stress Loading ~ 700 MPa leads to surface crack nucleation in a few cycles
Benefit from polishing surface. Effects of Surface Plasticity
![Page 9: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/9.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
What Causes a Surface to Roughen?
Essentially the same solution with different numerical components.
Brittle fracture.
2
2
4
)2()(2
xx
xx
E
ccE
G
2
22
42
2
12
),(
Ea
aU
aE
aU
![Page 10: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/10.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Fracture module (1): Standard..K~a^1/2
stress intensity factor for single crack Input: stress calculation
From stress module
Model: Superimpose a stress field to make crack surface
stress free End result:
0
2
2 ( , ) ( )
1( , ) 1 0.6147 1 0.2502 1
a
I yyK M a x x dx
x xM a xa aa x
a
x
y
![Page 11: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/11.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Resultsstress intensity factor for single crack
![Page 12: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/12.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
1E-4 1E-3 0.01 0.10
1000
2000
3000
4000
5000
6000
7000
8000
K I (MPa
x m
1/2 )
Time (sec)
0
4
8
12
16
20
24
28
Crack Length (m) w
ith Max K
I
Maximum KI and crack length:
KIC 7 MPa·m1/2
for recrystalz. W(A.V. Babak, 1981)
1.2 msec
![Page 13: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/13.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
M. Faleschini *, H. Kreuzer, D. Kiener, R. Pippan, Journal of Nuclear Materials 367–370 (2007) 800–805
![Page 14: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/14.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Fracture module (2): stress intensity factor for parallel cracks Input:
Stress field Green’s function table
From literature
Model
1
0d
1I yy
G sK b s s
s
b
x
yh
0.0 0.2 0.4 0.6 0.8 1.0-0.2
0.0
0.2
0.4
0.6
0.8
1.0
Calculated by H.F. Nied in 1987
h/b = 0.5
h/b = 1h/b = 2
h/b = 4
h/b = 8
h/b = infinity
Gre
en's
Fun
ctio
ns G
(s)
s=x/b
![Page 15: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/15.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Result: stress intensity factor for parallel cracks
1E-4 1E-3 0.010
1000
2000
3000
4000
5000
6000
7000Single Crack
h/b = 0.5h/b = 1h/b = 2
h/b = 4
h/b = 8h/b = 108
K
I (MP
a x m
1/2 )
Time (sec)
![Page 16: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/16.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Inertial thermal stress wave with time ramp: Analytical model (Cozen & Blanchard) Volumetric heating rate:
Longitudinal Stresses:
![Page 17: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/17.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Inertial thermal stress wave with time ramp: UMARO’s approximation Volumetric heating rate:
x0
Q0Blue: calculated Q’’’Red: curve fitted Q’’’
Let: Area under red (0~x0) = 0.95 total area under blue
Thus: 0
0
ln 1 0.95
UMARCO
x
Q Q
![Page 18: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/18.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Inertial thermal stress wave with time ramp Results ramp stopped at In the surface layerThrough the whole wall
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18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Inertial thermal stress wave with time step: Results
Unrealistic Magnitude1) Computational?2) Model?
![Page 20: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/20.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Future Plans: Documentation:
APL paper on roughening, in press TOFE … 8 abstracts submitted JNM Paper on Roughening under pulsed conditions,
submitted Comprehensive paper on UMARCO, in progress
Model development: Refine: Inertial stress wave model Stress gradient effects on bubble diffusion
Program integrity Enhancement : Complete conversion from Fortran to C++ GUI for user-friendly applications.
![Page 21: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/21.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
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18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
So, What Does This Mean? Maybe the solution lies
with an engineered surface?
Solid surface is just too stiff for the high stresses.
)(
)(
31.1)(
2*
00
00
2
EE
mEa
New critical crack depth increased to over 30 microns for a porosity of 20%!
![Page 23: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/23.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Summary
Fracture Module: Seamlessly combining heat and ion part Intensity factor calculation
Single > parallel
Inertial effect of longitudinal stress wave: More reasonable case:
Time: Ramp; Depth: Step
![Page 24: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/24.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
UMACRO
HAPL Condition Material: SRIM Material: Mech Prop.
Ion Implant. Profile Vol. Heat Rate
Temperature Module
Transient stress strain field Module
Constitutive Lawelastic, plastic
FractureModule
Inertial Wave Stress: refinerefine
Diffusion Module:Ion, Helium,
Bubbles, Carbon
C++ GUIC++ GUI
![Page 25: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/25.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Global-Local Modeling
)1ln( DECE
EB
AdxdE
Plane Stress, Plane Strain.(Hu, Blanchard) SRIM code used for
implantation profiling
tt
![Page 26: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/26.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Roughening Model Continued
The surface material transport is determined by the Nernst-Einstein relation of the diffusion flux proportional to the surface gradient of the chemical potential given as
where Ds is the surface diffusivity, k is the Boltzmann’s constant, T is the absolute temperature and the derivative with respect to the arc length, s, is evaluated along the surface. The normal velocity of the surface Vn, is then proportional to the divergence of J:
where s is the number of atoms per unit area of the material in the plane normal to the flux direction. This can be extended to the surface profile h(x,t) as
skTD
J s
2
2
skTD
V ssn
kTDD
xh
xD
th
ss
x
2
21
21
Notice the 4
derivatives over the surface, this is
where the instability gets its name!
Ultimately, the competition is between the strain energy
and surface curvature.
![Page 27: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/27.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Linear Perturbation Theory
2
432
0
0
1
1)2(
)(
)2cos(
EE
H
kkHD
eAtA
xAh
t
Plane Stress
c =1.88 for =.33
kTDD
DE
s2
421
,
![Page 28: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/28.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Surface EvolutionSurface flattens for
low stressesAdjacent bumps form for
higher stress
c =1.88 for =.33
![Page 29: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/29.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Crack Growth Results
= 2.0 2.5 3.0
Tangential Stresses
![Page 30: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/30.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Plasticity Effects from Dislocation Emission
= 2.5 = 2.75 = 3.0
= 3.0 (No Disl.)
![Page 31: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/31.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Plasticity Effects Continued
Chemical potential now contains plastic strain.
Dislocations move based on the Peach-Koehler Force. m
kjlijki
ipi
N
i
pip
pe
vv
btFAbl
D
)(
)(*
00
Temperature dependent material properties
![Page 32: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/32.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Inertial thermal stress wave with time ramp Results ramp not stopped at Through the whole wall In the surface layer
![Page 33: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/33.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Tungsten-coated Carbon Velvet survives 1600 pulses amazingly well
520C (nominal), 1600 pulses, 1.5 J/cm2/pulse
NOTE: W remaining on tips (see below)
and sides
(ABOVE)2.8 J/cm2, 1600 pulses
NOTE: bent tips, flat ends have W removed, rounded ends still have W
Carbon PAN fibers w/ 1.6 µm W coating, 2% areal coverage
![Page 34: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/34.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
4 μm
4 μm
Carbon Velvet as HAPL’s First Wall Armor
Unirradiated CCV
20 μm
![Page 35: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/35.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Back-up Slides
Thermal stress wave with time step
![Page 36: 18th High Average Power Laser Program Workshop, LANL Progress on the Unified Materials Response Code (UMARCO) Qiyang Hu 1, Jake Blanchard 2, Mike Andersen.](https://reader031.fdocuments.us/reader031/viewer/2022013013/5a4d1af57f8b9ab059981547/html5/thumbnails/36.jpg)
18th High Average Power Laser Program Workshop, LANL18th High Average Power Laser Program Workshop, LANL
Inertial thermal stress wave with time step: Analytical model (Cozen & Blanchard) Volumetric heating rate:
LongitudinalStresses:
00
00
00 0
00 0
12 2
1 2
2 0, ,
, ,
,
xxp
Q ct x xxct ct x H t ct x x Hc c c c
x x x xct x x H t ct x H t ct x H x tc c c
ct x xxct x H x t ct x x H x xc c
ct x xct x x H x x
c
02ctH x x