Nanointerfacial strength between non-collagenous protein and collagen fibrils in antler bone

被引：54

作者：

Hang, Fei ^{[1
,2
,3
]}

Gupta, Himadri S. ^{[1
]}

Barber, Asa H. ^{[1
]}

机构：

[1] Queen Mary Univ London, Sch Engn & Mat Sci, Dept Mat, London E1 4NS, England

[2] S China Univ Technol, Natl Engn Res Ctr Tissue Restorat & Reconstruct, Guangzhou 510640, Peoples R China

[3] S China Univ Technol, Sch Mat Sci & Engn, Guangzhou 510640, Peoples R China

来源：

JOURNAL OF THE ROYAL SOCIETY INTERFACE | 2014年 / 11卷 / 92期

基金：

英国工程与自然科学研究理事会;

关键词：

bone; toughness; nanomechanics; MECHANICAL-PROPERTIES; SACRIFICIAL BONDS; FRACTURE; NANOSCALE; STRESS; ENERGY; NANOCOMPOSITES; DEFORMATION; OSTEOPONTIN; PLASTICITY;

D O I：

10.1098/rsif.2013.0993

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Antler bone displays considerable toughness through the use of a complex nanofibrous structure of mineralized collagen fibrils (MCFs) bound together by non-collagenous proteins (NCPs). While the NCP regions represent a small volume fraction relative to the MCFs, significant surface area is evolved upon failure of the nanointerfaces formed at NCP-collagen fibril boundaries. The mechanical properties of nanointerfaces between the MCFs are investigated directly in this work using an in situ atomic force microscopy technique to pull out individual fibrils from the NCP. Results show that the NCP-fibril interfaces in antler bone are weak, which highlights the propensity for interface failure at the nanoscale in antler bone and extensive fibril pullout observed at antler fracture surfaces. The adhesion between fibrils and NCP is additionally suggested as being rate dependent, with increasing interfacial strength and fracture energy observed when pullout velocity decreases.

引用

页数：7

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