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Bones consist of hierarchical bio-composite materials arranged in multi scale structural geometry. This structure is vulnerable to various damaging factors that may cause its degradation, such as accidents, medical operations and diseases. Imaging techniques can already provide highly detailed micro-features of a bone or even its complete volumetric micro-structure. A three-dimensional model of the...
Bones are composed of hierarchical bio-composite materials characterized by complex multiscale structural geometry and behavior. The architecture and the mechanical properties of bone tissue differ at each level of hierarchy. Thus, a multiscale approach for mechanical analysis of bone is imperative.This paper proposes a new approach for 3D multiscale finite element analysis of trabecular bone that...
This paper describes a new alternative for individualized mechanical analysis of bone trabecular structure. This new method closes the gap between the classic homogenization approach that is applied to macro-scale models and the modern micro-finite element method that is applied directly to micro-scale high-resolution models. The method is based on multiresolution geometrical modeling that generates...
Bones consist of hierarchical biocomposite materials arranged in multi-scale structural geometry exhibiting complex behavior. This structure is vulnerable to various damaging factors that may cause its degradation, such as accidents, medical operations and diseases. Current technology cannot precisely reconstruct damaged bone tissue and can only roughly approximate such damaged structures. The aim...
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