Hierarchical interconnections in the nano-composite material bone: Fibrillar cross-links resist fracture on several length scales

Georg E. Fantner; Olexandr Rabinovych; Georg Schitter

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Hierarchical interconnections in the nano-composite material bone: Fibrillar cross-links resist fracture on several length scales

机译：纳米复合材料骨骼中的层次互连：原纤维交联剂可抵抗多种长度尺度的断裂

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摘要

Bone is a complex and very important multi-constituent bio-composite. In this work, we focus on the arrangement of boné constit-uents from the nanoscopic to the microscopic scale, and investigate the influence of their arrangements on the fracture mechanisms of the whole composite. We find that bone, on the nanoscopic scale, consists of mineralized collagen fibrils held together by a non-fibrillar organic matrix, which results in a primary failure mode of delamination between mineralized fibrils. In turn, these mineralized fibrils form one of three types of filaments that span microcracks in fractured bone samples, possibly resisting the propagation of these cracks.

机译：骨是复杂且非常重要的多成分生物复合材料。在这项工作中，我们专注于从纳米尺度到微观尺度的骨架组分的排列，并研究它们的排列对整个复合材料断裂机制的影响。我们发现，在纳米尺度上，骨骼由矿化的胶原纤维组成，而胶原纤维则由非纤维状的有机基质保持在一起，这导致矿化纤维之间发生分层的主要失效模式。反过来，这些矿化的原纤维形成了三种类型的细丝之一，这些细丝跨越了断裂的骨样品中的微裂纹，可能会阻止这些裂纹的传播。

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来源
《Composites Science and Technology》 |2006年第9期|p.1205-1211|共7页
作者
Georg E. Fantner; Olexandr Rabinovych; Georg Schitter;
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作者单位

University of California Santa Barbara, Department of Physics, Santa Barbara, CA 93106, USA;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
Bone; AFM; Mechanical properties; Non-collagenous proteins; Filaments; Collagen; Fibrils;

机译：骨;原子力显微镜;力学性能;非胶原蛋白;长丝;胶原蛋白;原纤维;

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1. Application of fracture mechanics concepts to hierarchical biomechanics of bone and bone-like materials [J] . H. GAO International Journal of Fracture . 2006,第1a4期

机译：断裂力学概念在骨骼和类骨材料的分层生物力学中的应用
2. Application of Fracture Mechanics Concepts to Hierarchical Biomechanics of Bone and Bone-like Materials [J] . Huajian Gao International Journal of Fracture . 2006,第1a4期

机译：断裂力学概念在骨和类骨材料的分层生物力学中的应用
3. Fracture length scales in human cortical bone: The necessity of nonlinear fracture models [J] . Yang QD, Cox BN, Nalla RK, Biomaterials . 2006,第9期

机译：人体皮质骨骨折长度尺度：非线性骨折模型的必要性
4. SMALL SCALE FRACTURE OF BONE TO UNDERSTAND THE EFFECT OF FIBRILLAR ORGANIZATION ON TOUGHNESS [C] . Finn Giuliani, Nouf Aldegaither, Giorgio Sernicola, Conference on nanomechanical testing in materials research and development . 2019

机译：理解骨骼的小尺度骨折，以了解原纤维组织对韧性的影响
5. Multiscale Finite Element Modeling of Fracture Resistance of Cortical Bone Assessing the Influence of Variations in Structural and Material Properties of Mineralized Collagen Fibrils and Extra-Fibrillar Matrix [D] . Wang, Yaohui. 2020

机译：多尺度有限元模拟皮质骨折性抗性评估矿化胶原纤维结构和材料性能变化影响及超纤维素基质的影响
6. Hierarchy of Bone Microdamage at Multiple Length Scales [O] . Deepak Vashishth -1

机译：多个长度尺度的骨微损伤等级
7. Hierarchical modeling of flow in naturally fractured formations with multiple length scales [O] . S. H. Lee, M. F. Lough, C. L. Jensen 2001

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Hierarchical interconnections in the nano-composite material bone: Fibrillar cross-links resist fracture on several length scales

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