Journal of Biomechanics
Volume 45, Issue 4 , Pages 672-678, 23 February 2012

Elastic modulus of hard tissues

Department of Materials and Interfaces, Weizmann Institute of Science, Rehovot 76100, Israel

Accepted 9 December 2011. published online 11 January 2012.

Abstract 

This work aims at evaluating the elastic modulus of hard biological tissues by considering their staggered platelet micro-structure. An analytical expression for the effective modulus along the stagger direction is formulated using three non-dimensional structural variables. Structures with a single staggered hierarchy (e.g. collagen fibril) are first studied and predictions are compared with the experimental results and finite element simulations from the literature. A more complicated configuration, such as an array of fibrils, is analyzed next. Finally, a mechanical model is proposed for tooth dentin, in which variations in the multi-scale structural hierarchy are shown to significantly affect the macroscopic mechanical properties.

Keywords: Staggered structures, Bio-mechanics, Bio-composites, Nano-composites

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PII: S0021-9290(11)00765-2

doi:10.1016/j.jbiomech.2011.12.003

Journal of Biomechanics
Volume 45, Issue 4 , Pages 672-678, 23 February 2012

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