蛋白质基质中矿化胶原纤维交错阵列的力学行为：纤维尺寸和蛋白质基质中破坏能量的影响。

Mechanical behaviour of staggered array of mineralised collagen fibrils in protein matrix: Effects of fibril dimensions and failure energy in protein matrix.

作者信息

Lai Zheng Bo, Yan Cheng

机构信息

School of Chemistry, Physics and Mechanical Engineering, Science and Engineering Faculty, Queensland University of Technology (QUT), Brisbane, Queensland, Australia.

出版信息

J Mech Behav Biomed Mater. 2017 Jan;65:236-247. doi: 10.1016/j.jmbbm.2016.08.024. Epub 2016 Aug 25.

DOI:10.1016/j.jmbbm.2016.08.024

PMID:27592292

Abstract

Many biological composite materials such as bone have demonstrated unique mechanical performance, i.e., a combination of superior stiffness and toughness. It has become increasingly clear that the constituents at the nano- and micro-length scales play a critical role in determining the mechanical performance of these biological composites. In this study, the underlying mechanisms governing the mechanical behaviour of the staggered array of mineralised collagen fibrils (MCF) embedded in extra-fibrillar protein matrix were numerically investigated. The evolution of damage zone in protein was estimated using cohesive zone models (CZM). The results indicate that the mechanisms and mechanical behaviour of MCF array are largely dependent on the MCF dimensions and the intrinsic failure energy in extra-fibrillar protein matrix.

摘要

许多生物复合材料，如骨骼，都表现出独特的力学性能，即兼具优异的刚度和韧性。越来越清楚的是，纳米和微米尺度的成分在决定这些生物复合材料的力学性能方面起着关键作用。在本研究中，对嵌入纤维外蛋白质基质中的矿化胶原纤维（MCF）交错阵列的力学行为的潜在机制进行了数值研究。使用内聚区模型（CZM）估计蛋白质中损伤区的演变。结果表明，MCF阵列的机制和力学行为在很大程度上取决于MCF的尺寸和纤维外蛋白质基质中的固有失效能。

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蛋白质基质中矿化胶原纤维交错阵列的力学行为：纤维尺寸和蛋白质基质中破坏能量的影响。

Mechanical behaviour of staggered array of mineralised collagen fibrils in protein matrix: Effects of fibril dimensions and failure energy in protein matrix.

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