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A strain energy density function or stored energy density function is a scalar-valued function that relates the strain energy density of a material to the deformation gradient. Equivalently, where is the (two-point) deformation gradient tensor, is the right Cauchy–Green deformation tensor, is the left Cauchy–Green deformation tensor,and is the rotation tensor from the polar decomposition of . For isotropic materials, with For linear isotropic materials undergoing small strains, the strain energy density function specializes to

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  • Función densidad de energía de deformación (es)
  • Strain energy density function (en)
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  • Una función de densidad de energía de deformación (FDED) o función de densidad de energía almacenada es una función escalar que relaciona la energía de deformación de un material con el gradiente de deformación y otra medida alternativa de deformación (usualmente algún tipo de tensor de deformación). (es)
  • A strain energy density function or stored energy density function is a scalar-valued function that relates the strain energy density of a material to the deformation gradient. Equivalently, where is the (two-point) deformation gradient tensor, is the right Cauchy–Green deformation tensor, is the left Cauchy–Green deformation tensor,and is the rotation tensor from the polar decomposition of . For isotropic materials, with For linear isotropic materials undergoing small strains, the strain energy density function specializes to (en)
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  • Una función de densidad de energía de deformación (FDED) o función de densidad de energía almacenada es una función escalar que relaciona la energía de deformación de un material con el gradiente de deformación y otra medida alternativa de deformación (usualmente algún tipo de tensor de deformación). (es)
  • A strain energy density function or stored energy density function is a scalar-valued function that relates the strain energy density of a material to the deformation gradient. Equivalently, where is the (two-point) deformation gradient tensor, is the right Cauchy–Green deformation tensor, is the left Cauchy–Green deformation tensor,and is the rotation tensor from the polar decomposition of . For an anisotropic material, the strain energy density function depends implicitly on reference vectors or tensors (such as the initial orientation of fibers in a composite) that characterize internal material texture. The spatial representation, must further depend explicitly on the polar rotation tensor to provide sufficient information to convect the reference texture vectors or tensors into the spatial configuration. For an isotropic material, consideration of the principle of material frame indifference leads to the conclusion that the strain energy density function depends only on the invariants of (or, equivalently, the invariants of since both have the same eigenvalues). In other words, the strain energy density function can be expressed uniquely in terms of the principal stretches or in terms of the invariants of the left Cauchy–Green deformation tensor or right Cauchy–Green deformation tensor and we have: For isotropic materials, with For linear isotropic materials undergoing small strains, the strain energy density function specializes to A strain energy density function is used to define a hyperelastic material by postulating that the stress in the material can be obtained by taking the derivative of with respect to the strain. For an isotropic hyperelastic material, the function relates the energy stored in an elastic material, and thus the stress–strain relationship, only to the three strain (elongation) components, thus disregarding the deformation history, heat dissipation, stress relaxation etc. For isothermal elastic processes, the strain energy density function relates to the specific Helmholtz free energy function , For isentropic elastic processes, the strain energy density function relates to the internal energy function , (en)
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