Computational Bone Remodelling Revisited

Areti Papastavrou, Kefu Deng, Paul Steinmann

Abstract


Bone as a living material is able to adapt to loading by changing its density and trabeculae architecture. This process is referred to as remodelling. In this talk, a computational model that accounts for bone remodelling is presented, whereby novelties from the viewpoint of biomechanical modelling are the incorporation of material uncertainties, life-time aging and availability of nutritive substances. The physical process of remodelling is modelled using continuum scale, open system thermodynamics whereby the density of bone evolves isotropically in response to the loading it experiences. The fully nonlinear continuum theory is solved approximately using the finite element method and is validated using a series of benchmark problems.

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Asociación Argentina de Mecánica Computacional
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ISSN 2591-3522