Inhomogeneous Material Properties Assignment to Finite Element Models of Bone: A Sensitivity Study

Inhomogeneous Material Properties Assignment to Finite Element Models of Bone: A Sensitivity Study

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The present work deals with a strain intensity sensitivity to finite element mesh density in computational models of skull bone sample with an inhomogeneous distribution of Young's modulus. Computational experiments on models with various mesh density were conducted to test the hypothesis that the strain intensity distribution along the bone sample thickness is significantly influenced by the mesh density when material properties of bone obtained from the computer tomography are assigned to the finite element model. The results indicate that the mesh quality matters.

The present work deals with a strain intensity sensitivity to finite element mesh density in computational models of skull bone sample with an inhomogeneous distribution of Young's modulus. Computational experiments on models with various mesh density were conducted to test the hypothesis that the strain intensity distribution along the bone sample thickness is significantly influenced by the mesh density when material properties of bone obtained from the computer tomography are assigned to the finite element model. The results indicate that the mesh quality matters.

Computer tomography; Finite element method; Material mapping; Patient-specific

Computer tomography; Finite element method; Material mapping; Patient-specific

BORÁK, L.; MARCIÁN, P.

2018

15.05.2017

978-80-214-5497-2

Engineering Mechanics 2017

190

193

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