A general approach for defining the macroscopic free energy density of saturated porous media at finite strains under non-isothermal conditions
From MaRDI portal
Publication:388391
DOI10.1016/J.EUROMECHSOL.2011.06.008zbMath1278.74143OpenAlexW2057316103MaRDI QIDQ388391
Publication date: 19 December 2013
Published in: European Journal of Mechanics. A. Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.euromechsol.2011.06.008
Nonlinear elasticity (74B20) Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Effective constitutive equations in solid mechanics (74Q15)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- The thermodynamics of elastic materials with heat conduction and viscosity
- A thermomechanical theory for reacting immiscible mixtures
- On ideal multiphase mixtures with chemical reactions and diffusion
- Compressible porous media models by use of the theory of mixtures
- Algorithms for static and dynamic multiplicative plasticity that preserve the classical return mapping schemes of the infinitesimal theory
- Decomposition of deformation and representation of the free energy function for isotropic thermoelastic solids
- Mixtures of granular materials
- Variational Lagrangian-thermodynamics of nonisothermal finite strain mechanics of porous solids and thermomolecular diffusion
- From mixture theory to Biot's approach for porous media
- On the thermodynamics of a mixture of isotropic materials with constraints
- Entropic thermoelasticity at finite strains. Aspects of the formulation and numerical implementation
- Theoretical poroelasticity -- a new approach
- A general approach to isothermal hyperelastic modelling of saturated porous media at finite strains with compressible solid constituents
- On the Development of Volumetric Strain Energy Functions
- Plane Progressive Waves in a Binary Mixture of Linear Elastic Materials
- Hygrothermomechanical evaluation of porous media under finite deformation. Part I ‐ finite element formulations
- Thermo-mechanics of rubberlike materials
- Effective stresses - a clarification
This page was built for publication: A general approach for defining the macroscopic free energy density of saturated porous media at finite strains under non-isothermal conditions
