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An approach to elastoplasticity at large deformations
K. Y. Volokh
Department of Civil and Environmental Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
27
Scopus citations
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Dive into the research topics of 'An approach to elastoplasticity at large deformations'. Together they form a unique fingerprint.
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Keyphrases
Large Deformation
100%
Hypoelasticity
100%
Elastoplasticity
100%
Plastic Decomposition
75%
Deformation Rate
75%
Elastic-plastic
75%
Popular
50%
Non-physical
50%
Plastic Deformation
50%
Hyperelasticity
50%
Velocity Gradient
50%
Finite Strain Elastoplasticity
50%
Energy Dissipation
25%
Constitutive Law
25%
Small Deformation
25%
Finite Element Code
25%
Evolution Equations
25%
Isotropic Material
25%
Strain Tensor
25%
Simple Shear Deformation
25%
Metal Plasticity
25%
Flow Rule
25%
Deformation Gradient Tensor
25%
Multiplicative Decomposition of the Deformation Gradient
25%
Deformation Cycle
25%
Reiner-Rivlin Fluid
25%
Elastic Strain
25%
Additive Decomposition
25%
Hyperelastic Constitutive Law
25%
Engineering
Large Deformation
100%
Plastic Deformation
66%
Velocity Gradient
66%
Energy Engineering
33%
Finite Element Method
33%
Strain Tensor
33%
Elastic Strain
33%
Deformation Gradient
33%
Small Deformation
33%
Deformation Gradient Tensor
33%
Additive Decomposition
33%
Simple Shear
33%
Rate Tensor
33%
Flow Rule
33%
Shear Deformation
33%
Material Science
Large Deformation
100%
Elastoplasticity
100%
Plastic Deformation
40%
Finite Element Method
20%
Mechanical Strength
20%
Small Deformation
20%
Isotropic Material
20%