On the Mechanistic Origins of Toughness in Bone

Author(s)

Launey, Maximilien E.; Buehler, Markus J.; Ritchie, Robert O.

Abstract

One of the most intriguing protein materials found in nature is bone, a material composed of assemblies of tropocollagen molecules and tiny hydroxyapatite mineral crystals that form an extremely tough, yet lightweight, adaptive and multifunctional material. Bone has evolved to provide structural support to organisms, and therefore its mechanical properties are of great physiological relevance. In this article, we review the structure and properties of bone, focusing on mechanical deformation and fracture behavior from the perspective of the multidimensional hierarchical nature of its structure. In fact, bone derives its resistance to fracture with a multitude of deformation and toughening mechanisms at many size scales ranging from the nanoscale structure of its protein molecules to the macroscopic physiological scale.

Date issued

2010-03

URI

http://hdl.handle.net/1721.1/77563

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering

Journal

Annual Review of Materials Research

Publisher

Annual Reviews

Citation

Launey, Maximilien E., Markus J. Buehler, and Robert O. Ritchie. “On the Mechanistic Origins of Toughness in Bone.” Annual Review of Materials Research 40.1 (2010): 25–53. CrossRef. Web.

Version: Author's final manuscript

Other identifiers

LBNL Paper LBNL-2735E

ISSN

1531-7331

1545-4118