Abstract A human femur model, submitted to static loads, is analyzed through the utilization of three material constitutive relationships, namely: isotropic, transversally isotropic and orthotropic. The influence of bone anisotropy with respect to principal stress/strain distribution on human femur external surface was accessed through the use of analytical and finite element approaches. The models results show that the principal angles at a medial path bone surface have a good correlation with human femur bone lamellae angles
Cortical bone is an inhomogeneous and anisotropic tissue subjected to large loads during typical dai...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
International audienceFinite element models are widely used to assess long bone strength, implant st...
Finite Element Method (FEM) is a numerical technique of obtaining solutions to boundary value proble...
AbstractContinuum finite element (FE) models of bones are commonly generated based on CT scans. Elem...
Abstract. Image-based finite element (FE) modeling of human bones has been increasingly applied as a...
Continuum finite element (FE) models of bones are commonly generated based on CT scans. Element mate...
Normally, osteoclasts and osteoblasts balance bone mass in a coupled process of remodelling ruled by...
Results of experimental strain gauge and theoretical stress analysis methods are used to investigate...
Osteoarthritis (OA) is a degenerative disease that alters the integrity of the joint. Osteophytes re...
Experimental strain-gauge and theoretical stress analysis methods are used to evaluate the mechanica...
The aim of the work presented in this thesis was to develop a finite element model and experiment to...
Finite element models of the prosthetically resurfaced tibia have included the anisotropic and heter...
Continuum finite element (FE) models of bones and bone-implant configurations are usually based on c...
The area of clinical biomechanics is a rapidly growing engineering discipline in the world of today....
Cortical bone is an inhomogeneous and anisotropic tissue subjected to large loads during typical dai...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
International audienceFinite element models are widely used to assess long bone strength, implant st...
Finite Element Method (FEM) is a numerical technique of obtaining solutions to boundary value proble...
AbstractContinuum finite element (FE) models of bones are commonly generated based on CT scans. Elem...
Abstract. Image-based finite element (FE) modeling of human bones has been increasingly applied as a...
Continuum finite element (FE) models of bones are commonly generated based on CT scans. Element mate...
Normally, osteoclasts and osteoblasts balance bone mass in a coupled process of remodelling ruled by...
Results of experimental strain gauge and theoretical stress analysis methods are used to investigate...
Osteoarthritis (OA) is a degenerative disease that alters the integrity of the joint. Osteophytes re...
Experimental strain-gauge and theoretical stress analysis methods are used to evaluate the mechanica...
The aim of the work presented in this thesis was to develop a finite element model and experiment to...
Finite element models of the prosthetically resurfaced tibia have included the anisotropic and heter...
Continuum finite element (FE) models of bones and bone-implant configurations are usually based on c...
The area of clinical biomechanics is a rapidly growing engineering discipline in the world of today....
Cortical bone is an inhomogeneous and anisotropic tissue subjected to large loads during typical dai...
Continuum finite element (FE) models of bones have become a standard pre-clinical tool to estimate b...
International audienceFinite element models are widely used to assess long bone strength, implant st...