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2. Strain energy density function - Wikipedia

   en.wikipedia.org/wiki/Strain_energy_density_function

   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.

3. Neo-Hookean solid - Wikipedia

   en.wikipedia.org/wiki/Neo-Hookean_solid

   The primary, and likely most widely employed, strain-energy function formulation is the Mooney-Rivlin model, which reduces to the widely known neo-Hookean model. The strain energy density function for an incompressible Mooney—Rivlin material is = + (); =

4. Third medium contact method - Wikipedia

   en.wikipedia.org/wiki/Third_medium_contact_method

   While the neo-Hookean material model can be stable for contact without sliding, sliding often leads to instability. To address this, regularization techniques are applied to the strain energy density function. Regularization is typically achieved by adding a regularization term to the strain energy density function of the material model.

5. Finite strain theory - Wikipedia

   en.wikipedia.org/wiki/Finite_strain_theory

   The concept of strain is used to evaluate how much a given displacement differs locally from a rigid body displacement. [1] [8] [9] One of such strains for large deformations is the Lagrangian finite strain tensor, also called the Green-Lagrangian strain tensor or Green–St-Venant strain tensor, defined as

6. Mooney–Rivlin solid - Wikipedia

   en.wikipedia.org/wiki/Mooney–Rivlin_solid

   In continuum mechanics, a Mooney–Rivlin solid [1] [2] is a hyperelastic material model where the strain energy density function is a linear combination of two invariants of the left Cauchy–Green deformation tensor.

7. Infinitesimal strain theory - Wikipedia

   en.wikipedia.org/wiki/Infinitesimal_strain_theory

   In continuum mechanics, the infinitesimal strain theory is a mathematical approach to the description of the deformation of a solid body in which the displacements of the material particles are assumed to be much smaller (indeed, infinitesimally smaller) than any relevant dimension of the body; so that its geometry and the constitutive properties of the material (such as density and stiffness ...

8. Gent hyperelastic model - Wikipedia

   en.wikipedia.org/wiki/Gent_hyperelastic_model

   The Gent hyperelastic material model [1] is a phenomenological model of rubber elasticity that is based on the concept of limiting chain extensibility. In this model, the strain energy density function is designed such that it has a singularity when the first invariant of the left Cauchy-Green deformation tensor reaches a limiting value .

9. Hyperelastic material - Wikipedia

   en.wikipedia.org/wiki/Hyperelastic_material

   A hyperelastic or Green elastic material [1] is a type of constitutive model for ideally elastic material for which the stress–strain relationship derives from a strain energy density function. The hyperelastic material is a special case of a Cauchy elastic material .