A framework for deformation, generalized diffusion, mass transfer and growth in multi-species multi-phase biological tissues
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Publication:2573950
DOI10.1016/j.euromechsol.2005.05.005zbMath1125.74360OpenAlexW2000956094MaRDI QIDQ2573950
Fernando M. F. Simões, Benjamin Loret
Publication date: 25 November 2005
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.2005.05.005
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Cites Work
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- Bone remodeling. II: Small strain adaptive elasticity
- Variational Lagrangian-thermodynamics of nonisothermal finite strain mechanics of porous solids and thermomolecular diffusion
- Kinematics of surface growth
- Finite element simulations of chemo-mechanical coupling in elastic-plastic homoionic expansive clays.
- Thermomechanics of volumetric growth in uniform bodies
- Residual stress generation and necrosis formation in multi-cell tumour spheroids
- A note on the dissipation due to generalized diffusion with electro-chemo-mechanical couplings in heteroionic clays
- A continuum treatment of growth in biological tissue: the coupling of mass transport and mechanics
- Electro-chemo-mechanical couplings in saturated porous media: elastic--plastic behaviour of heteroionic expansive clays.
- On the mechanics of solids with a growing mass.
- The role of cell-cell interactions in a two-phase model for avascular tumour growth
- Equations constitutives et directeurs dans les milieux plastiques et viscoplastiques
- Compatibility and the genesis of residual stress by volumetric growth
- Transient analysis of ionic replacements in elastic--plastic expansive clays
- Fluid Dynamics / Strömungsmechanik
- CONTINUUM THEORIES OF MIXTURES: BASIC THEORY AND HISTORICAL DEVELOPMENT
- Volumetric Growth of Thermoelastic Materials and Mixtures
- A Theory of Volumetric Growth for Compressible Elastic Biological Materials
- A CONSTRAINED MIXTURE MODEL FOR GROWTH AND REMODELING OF SOFT TISSUES
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