Strain-rate stiffening of cortical bone: observations and implications from nanoindentation experiments.
@article{Maruyama2014StrainrateSO,
title={Strain-rate stiffening of cortical bone: observations and implications from nanoindentation experiments.},
author={Noriko Maruyama and Yo Shibata and Wurihan and Michael V. Swain and Yuki Kataoka and Yuichi Takiguchi and Atsushi Yamada and Koutaro Maki and Takashi Miyazaki},
journal={Nanoscale},
year={2014},
volume={6 24},
pages={
14863-71
}
}While bone mineralization is considered to be responsible for its stiffness, bone durability partially associated with the time-dependent viscoelasticity of matrix proteins is still poorly elucidated. Here we demonstrate a novel mechanism of highly mineralized bone durability almost independent of inherent viscoelastic behaviour along with a protocol for measuring the mechanical properties of mineralized tissues. Strain-rate nanoindentation tests showed substantial stiffening of the highly…
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