adaptive multiscale modeling and simulation for munitions simulations* progress report
DESCRIPTION
Adaptive Multiscale Modeling and Simulation for Munitions Simulations* Progress Report. PIs: Jacob Fish and Mark S. Shephard Post-docs: Gal Davidi, Caglar Oskay Students: Zheng Yuan, Rong Fan. *AFRL support leveraged by support from NSF, ONR and General Motors. Roadmap of Developments. - PowerPoint PPT PresentationTRANSCRIPT
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Adaptive Multiscale Adaptive Multiscale Modeling and Simulation Modeling and Simulation
for Munitions Simulations*for Munitions Simulations*Progress ReportProgress Report
PIs: Jacob Fish and Mark S. ShephardPIs: Jacob Fish and Mark S. ShephardPost-docs: Gal Davidi, Caglar OskayPost-docs: Gal Davidi, Caglar OskayStudents: Zheng Yuan, Rong FanStudents: Zheng Yuan, Rong Fan
*AFRL support leveraged by support from NSF, ONR and General Motors
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Roadmap of DevelopmentsRoadmap of DevelopmentsAssessment of commercial code Assessment of commercial code capabilitiescapabilities Mesh sensitivity studies (Gal Davidi) Mesh sensitivity studies (Gal Davidi) Validation studies (Rong Fan)Validation studies (Rong Fan)
Fragmentation capabilities for metalsFragmentation capabilities for metals Homogenization based approach (Gal Davidi)Homogenization based approach (Gal Davidi) Integration of homogenization in ABAQUS Integration of homogenization in ABAQUS
(Zhen Yuan) (Zhen Yuan) PUM based (Zhen Yuan and Rong Fan) PUM based (Zhen Yuan and Rong Fan)
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Roadmap of Developments (cont)Roadmap of Developments (cont)Fragmentation capabilities for compositesFragmentation capabilities for composites Reduced order methodology (Oskay) Reduced order methodology (Oskay) Validation studies (Oskay)Validation studies (Oskay) Integration in ABAQUSIntegration in ABAQUS Multiscale Enrichment based PUM Multiscale Enrichment based PUM
ApplicationsApplications
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Fragmentation in MetalsFragmentation in MetalsExperimental setupExperimental setup
Impactor in Sabot
Target Assembly
DH36 Steel Plate
The experimental parameters considered:• Steel target plate: DH36 steel; 3/16 inch thick; 6 inch diameter; • Impact velocity: In the range between 920 ft/sec. • Backing material: Polyurea: 0.215 inch• Impactor: non-deformable
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Experiment vs ABAQUS simulationExperiment vs ABAQUS simulation (without backing) (without backing)
Mises stress (without backing)
Equivalent plastic strain (without backing)
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Experiment vs SimulationExperiment vs SimulationDH36DH36
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Drawbacks of commercial softwareDrawbacks of commercial software
0.00E+00
5.00E+04
1.00E+05
1.50E+05
2.00E+05
2.50E+05
3.00E+05
0 0.00005 0.0001 0.00015 0.0002 0.00025 0.0003 0.00035 0.0004 0.00045
Fine (160)
Coarse (80)
Very Coarse (40)
3D models (4-8 layers)
Shell 21 layers
1.1. Cost of 3D simulations (4 days for 21 layer-model, Cost of 3D simulations (4 days for 21 layer-model, r-adaptivity)r-adaptivity)
2.2. Mesh dependency of both 3D and shell modelsMesh dependency of both 3D and shell models
3D model (21 layers)
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Remedy: Multiscale EnrichmentRemedy: Multiscale Enrichment
Global (structure) EnrichmentGlobal (structure) Enrichment Enrich the kinematics of the global mesh with Enrich the kinematics of the global mesh with
failure characteristic (delamination, shear failure characteristic (delamination, shear banding, fragmentation) characteristic banding, fragmentation) characteristic computed on the local patchcomputed on the local patch
For computational efficiencyFor computational efficiency
Local (material) EnrichmentLocal (material) Enrichment Embed discontinuities (strong or weak) into Embed discontinuities (strong or weak) into
material (micromechanical) modelmaterial (micromechanical) modelFor regularization of failure modelsFor regularization of failure models
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BetterBetter
Global Enrichment (MEPU)Global Enrichment (MEPU)
iN db b
Cell problems on
ijc
Q
Failure deformation mode-shapes
delamination
fracture
Global deformation modes
( )CoarseScale Enrichment
i i iA Au N d N ab b a ac= +G555555HG55H
xRigid body+Failure modes
ˆ ( )i iA Au N aa ac=GH
x(Superposition) (Domain decomposition)
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0
50
100
150
200
250
300
0 0.0001 0.0002 0.0003 0.0004
Time (s)
Velo
city
of Im
pact
or (m
/s)
Global Enrichment (metals)Global Enrichment (metals)3D simulations3D simulations
DH36 & ERC (3D-21 layers)
MEPU
DH36 & ERC (Shell)
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Local Enrichment (metals)Local Enrichment (metals)(in progress)(in progress)
Calculate discontinuity direction at each Gauss point Calculate discontinuity direction at each Gauss point
Align the RVE local coordinate system with one of the Align the RVE local coordinate system with one of the axis normal to the localization planeaxis normal to the localization planeDevelop a 3-point RVE model as follows:Develop a 3-point RVE model as follows:
det 0T n Dn
1
2
3
4
6
78
5
Shell
n
RVEDiscontinuity plane
Gauss point
Constrained RGB
Constrained
periodicity
master
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Impact Fragmentation of compositesImpact Fragmentation of composites PhenomenologicalPhenomenological
AdvantagesAdvantages- FastFast
DisadvantagesDisadvantages- ReliabilityReliability- Experiments architectureExperiments architecture dependentdependent
Eigendeformation-based Reduced Order HomogenizationEigendeformation-based Reduced Order Homogenization
Component
Material
Point
Direct HomogenizationDirect Homogenization
AdvantagesAdvantages- ReliabilityReliability- Architecture independent Exp.Architecture independent Exp.
DisadvantagesDisadvantages- Computationally formidableComputationally formidable
Matrix point (s)
Fiber point (s)
Interface point (s)Engineering AccuracyEngineering AccuracyFastFastArchitecture independent Architecture independent ExperimentsExperiments
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Validation: Tube Crush ExperimentValidation: Tube Crush ExperimentExperiments by Oak Ridge (Starbuck Experiments by Oak Ridge (Starbuck et al.et al.))Impact Velocity: 4000 mm/secImpact Velocity: 4000 mm/secMicrostructure: Woven compositeMicrostructure: Woven composite
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Model Validation (composites)Model Validation (composites)