wood transverse compression using hyperelastic plastic ......wood transverse compression using...
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Wood transverse compression using hyperelastic plastic behavior
simulated in the Material Point Method (MPM)
Yamina Aimene1 and John Nairn2
1Assistant Professor UAG - ECOFOG , French-Guiana, France
(Curently Visiting Scholar to OSU) 2Professor, Wood Science and Engineering, OSU, Oregon
1 MPM Workshop, Utah , Mars 14, 2013
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Outline
• Hyperelastic-plastic model
• Validation of the model
• Application to wood transverse compression
2 MPM Workshop, Utah , Mars 14, 2013
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Hyper elastic-plastic model
• Objective: To simulate large elastic deformations involving plastic behavior that are seen in materials such as wood, composites, etc.
• The model uses a multiplicative decomposition of the deformation gradient.
• The stress-strain law derives from a stored energy, the Neo-Hookean potential was considered,
• The plastic behavior is handled by a plastic flow condition • Mises-Huber classical condition - Isotropic hardening
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Hyper elastic-plastic model - cont’d
• Stress-strain elastic constitutive law
• Associate flow rule and plastic cumulative strain rate
• Implemented in Explicit MPM software NairnMPM • In NairnMPM, specific Cauchy stress is needed
with
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Outline
• Hyperelastic-plastic model
• Validation of the model
• Application to wood transverse compression
5 MPM Workshop, Utah , Mars 14, 2013
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Numerical validations
• Tensile and shear elementary tests
• All simulations are 2D plane strain
O
a
x
y
u
• Isotropic material
y
O x
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Elementary tests
• Restrained Tensile Test
• Simple Shear Test
More than 2000% of
strain 0
200
400
600
800
1000
0 400 800 1200 1600 2000
Cauc
hy st
ress
(MPa
)
Strain (%)
-20
-10
0
10
20
30
40
0 0.2 0.4 0.6 0.8 1
Cauc
hy st
ress
(MPa
)
Simple shear factor a
u
O
a
x
y
Sxx_MPM & AN
Syy, szz _MPM & AN
sxy_MPM & AN
sxx_MPM & AN
syy & szz_MPM & AN
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(using CPDI) x
y
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Numerical validations
• Compression test on a cellular material sample
• Image of a cross-section of soft wood anatomy with 8 selected cells
• Polyoxymethylene (POM)
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Cellular material sample
• MPM and finite elements discretization
• Micrograph Area : 0.832 x 0.541 mm2 • MPM Grid discretization: 300 x 194
elements • Number of particles : 47114 • Res: 300 ppp
• FEM mesh
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Cellular material compression
• Comparing experimental, MPM and FEM deformed shapes
5.3%
13.6%
27.3%
42%
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Cellular material compression – cont’d
• Localization of the cumulative plastic energy in MPM simulations
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Cellular material compression – cont’d
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Outline
• Hyper elastic-plastic model
• Validation of the model
• Application to wood transverse compression
13 MPM Workshop, Utah , Mars 14, 2013
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Wood, a very challenging material
• Wood: a complex material • Multiscale, • Anisotropic, • Composite, • . . .
Cell-wall scale : composite material (microFiber + matrix)
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Specific wood behavior
• Compression, main deformation of wood processes
Transverse compression Nonlinear behavior of wood (Plywood, OSB, etc.)
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Transverse wood compression
• Wood properties • Wood : Loblolly pine
• Micrograph image • Micrograph area: : 0.832 x 0.541 mm2
• MPM Grid discretization: 300 x 194 elements
• Boundary conditions Radial compression Tangential compression
T R
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y
x
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Radial wood compression
• Localization of plastic zones in the specimen • 0% cpr 30%
10% cpr 50%
25% 75%
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Radial wood compression – cont’d
• Comparison between models in small and large deformation
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Radial wood compression – cont’d
• Shape of elements at large strains
• Small strain model Large strain model
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Tangential wood compression
• Localization of plastic energy in the specimen 0% cpr 10% cpr
15% 25%
50% 75%
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Conclusions
• A hyper elastic-plastic model was successfully implemented in NairnMPM, an MPM software with multiple capabilities
• The hyper elastic-plastic behavior was able to reproduce complex experimental observations seen in wood materials
• The validated hyper elastic-plastic law simulated in MPM allows a better understanding of the distribution of the plastic energy which is critical to many industrial problems
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Thank you !
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