Homogenised finite element (FE) analyses are able to predict osteoporosis-related bone fractures and become useful for clinical applications. The predictions of FE analyses depend on the apparent, heterogeneous, anisotropic, elastic, and yield material properties, which are typically determined by implicit micro-FE (μFE) analyses of trabecular bone. The objective of this study is to explore an explicit μFE approach to determine the apparent post-yield behaviour of trabecular bone, beyond the elastic and yield properties. The material behaviour of bone tissue was described by elasto-plasticity with a von Mises yield criterion closed by a planar cap for positive hydrostatic stresses to distinguish the post-yield behaviour in tension and compr...
Interbody fusion device subsidence has been reported clinically. An enhanced understanding of the me...
Quantitative information about bone tissue-level loading is essential for understanding bone mechani...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
Trabecular bone plays an important mechanical role in bone fractures and implant stability. Homogeni...
Micro-finite element (micro-FE) analysis became a standard tool for the evaluation of trabecular bon...
The apparent mechanical behavior of trabecular bone depends on properties at the tissue or trabecula...
Trabecular bone strength is marked not only by the onset of local yielding, but also by post-yield b...
AbstractComputational homogenisation approaches using high resolution images and finite element (FE)...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
Trabecular bone is a porous mineralized tissue playing a major load bearing role in the human body. ...
Realistic macro-level finite element simulations of the mechanical behavior of trabecular bone, a ce...
International audienceNumerical simulation using finite element models (FEM) has become more and mor...
Interbody fusion device subsidence has been reported clinically. An enhanced understanding of the me...
Quantitative information about bone tissue-level loading is essential for understanding bone mechani...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...
Trabecular bone plays an important mechanical role in bone fractures and implant stability. Homogeni...
Micro-finite element (micro-FE) analysis became a standard tool for the evaluation of trabecular bon...
The apparent mechanical behavior of trabecular bone depends on properties at the tissue or trabecula...
Trabecular bone strength is marked not only by the onset of local yielding, but also by post-yield b...
AbstractComputational homogenisation approaches using high resolution images and finite element (FE)...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
Trabecular bone is a porous mineralized tissue playing a major load bearing role in the human body. ...
Realistic macro-level finite element simulations of the mechanical behavior of trabecular bone, a ce...
International audienceNumerical simulation using finite element models (FEM) has become more and mor...
Interbody fusion device subsidence has been reported clinically. An enhanced understanding of the me...
Quantitative information about bone tissue-level loading is essential for understanding bone mechani...
With improving clinical CT scanning technology, the accuracy of CT-based finite element (FE) models ...