Journal of Mechanical Engineering and Sciences (Jun 2020)

Micromechanical modeling of ductile fracture of human humerus

  • J. Rahmoun ,
  • H. Naceur ,
  • P. Drazetic ,
  • C. Fontaine

DOI
https://doi.org/10.15282/jmes.14.2.2020.32.0544
Journal volume & issue
Vol. 14, no. 2
pp. 6952 – 6960

Abstract

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This paper deals with the formulation, development and validation of a newly developed micromechanical-based model for the modeling of the nonlinear ductile fracture of human humerus. The originality of the present works concerns the coupling between the micromechanical formulation based on the Mori-Tanaka homogenization scheme for cylindrical voids and the Marigo nonlinear ductile damage model based on the porosity growth. The proposed model was implemented as a User Material UMAT within the explicit dynamic software LS-DYNA and validated by numerical and experimental analysis conducted by a drop tower impact of human humerus. The outcome of the proposed multi-scale model appears to correctly predict the general trends observed experimentally via the good estimation of the ultimate impact load and the fracture patterns of the human humerus.

Keywords