Keyphrases
Micromechanical Behavior
100%
Finite Strain
100%
Micromechanical Analysis
100%
High-fidelity Generalized Method of Cells
66%
Deformation Gradient
66%
Composite Materials
33%
Soft Tissue
33%
Field Distribution
33%
Mechanical Behavior
33%
Energy Function
33%
Local Fluctuations
33%
Biaxial
33%
State Response
33%
Unidirectional Composites
33%
Periodic Materials
33%
Homogenization Method
33%
Stiffness Matrix
33%
Field Response
33%
Potential-based
33%
Compressive Deformation
33%
Tensor Field
33%
Fluctuation Field
33%
Instantaneous Stiffness
33%
Infinitesimal Strain
33%
Tensor Distributions
33%
Mooney-Rivlin Model
33%
Piola-Kirchhoff Stress Tensor
33%
Reinforced Rubber
33%
Uniaxial Tensile Stress
33%
Tensile Stress State
33%
Engineering
Finite Strain
100%
Micromechanical Analysis
100%
Macroscale
66%
Generalized Method
66%
Method of Cell
66%
Kirchhoff
33%
Energy Function
33%
Composite Material
33%
Field Distribution
33%
Microscale
33%
Stiffness Matrix
33%
Tensile Stress σ
33%
Stress State
33%
Response Field
33%
Compressive Deformation
33%
Deformation Gradient
33%
State Response
33%
Mooney-Rivlin Model
33%
Deformation Gradient Tensor
33%
Tensor
33%