A Multi‐Component Description of Osmotic Driven Deformations in Articular Cartilage

This study focuses on a formulation within the theory of porous media (TPM) for continuum multicomponent modeling of osmotic driven deformation in articular cartilage. The cartilage consists of porous solid matrix (extracellular matrix(ECM)),which is reinforced by collagen fibers and saturated by a fluid phase. The solid and fluid phases are considered as immiscible constituents occupying spatially their individual volume fraction. However, both phases include electrolytes, which are responsible for the osmotic pressure. The collagen fiber induce both, a transverse‐isotropic stress and permeability behavior which is represented in the modal approach by an invariant‐based description for the stress and anisotropic permeability tensor for the fluid flow, respectively. The osmotic pressure is captured by considering the electro‐chemical potential of the electrolytes. After discussing the main details of the large‐strain coupled poro‐osmotic‐hyper‐elastic model approach, a brief numerical example is given. (© 2014 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim)