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Green elasticity

Nonlinear Cauchy Elasticity

Submitted by arash_yavari on
research
Cauchy elasticity
Green elasticity
hyper-elasticity
Nonlinear elasticity
linear elasticity
odd elasticity
Most theories and applications of elasticity rely on an energy function that depends on the strains from which the stresses can be derived. This is the traditional setting of Green elasticity, also known as hyper-elasticity. However, in its original form the theory of elasticity does not assume the existence of a strain energy function. In this case, called Cauchy elasticity, stresses are directly related to the strains. Since the emergence of modern elasticity in the 1940s, research on Cauchy elasticity has been relatively limited.

Controllable Deformations in Compressible Isotropic Implicit Elasticity

Submitted by arash_yavari on
research
Universal deformation
implicit constitutive equations
Cauchy elasticity
hyperelasticity
Green elasticity
Implicit elasticity
isotropic solids

For a given material, \emph{controllable deformations} are those deformations that can be maintained in the absence of body forces and by applying only boundary tractions. For a given class of materials, \emph{universal deformations} are those deformations that are controllable for any material within the class.

Universal Deformations and Inhomogeneities in Isotropic Cauchy Elasticity

Submitted by arash_yavari on
research
Universal deformation
universal inhomogeneity
Cauchy elasticity
hyperelasticity
Green elasticity
isotropic solids

For a given class of materials, universal deformations are those deformations that can be maintained in the absence of body forces and by applying solely boundary tractions. For inhomogeneous bodies, in addition to the universality constraints that determine the universal deformations, there are extra constraints on the form of the material inhomogeneities—universal inhomogeneity constraints. Those inhomogeneities compatible with the universal inhomogeneity constraints are called universal inhomogeneities.

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