Deformation Mechanisms in Nanoindentation of Bone

机译：骨纳米压痕的变形机理

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Cortical bone is a hierarchical, composite material composed of mineralized collagen fibrils organized into lamellae and osteons as classically described by Lakes [1]. The inherent heterogeneity and hierarchy of bone tissue makes it an interesting material to study at various size scales using a range of spherical tip sizes in nanoindentation. Further, the prevalence of pointed, Berkovich nanoindenter tips enable researchers to readily generate nanoindentation data. However, other tip geometries and sizes may provide an advantage over the Berkovich tip by enabling a more elastic contact and testing over a range of contact areas and structures.

机译：皮质骨是一种分层的复合材料，由矿化的胶原蛋白原纤维组成，组织成片状和骨状，如Lakes所经典描述的[1]。骨组织固有的异质性和层次结构使之成为一种有趣的材料，可以在纳米压痕中使用一系列球形尖端尺寸来研究各种尺寸规模。此外，尖锐的Berkovich纳米压痕针尖的盛行使研究人员能够轻松生成纳米压痕数据。但是，其他尖端的几何形状和尺寸可能比Berkovich尖端具有优势，因为它可以实现更弹性的接触并在一定范围的接触区域和结构上进行测试。

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《ASME summer bioengineering conference;SBC2010》|2010年|p.345-346|共2页
会议地点 Naples FL(US);Naples FL(US)
作者
Rachel C. Paietta; Sara E. Olesiak; Virginia L. Ferguson;
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作者单位

Department of Mechanical Engineering, University of Colorado at BoulderrnBoulder, CO, United States;

Department of Mechanical Engineering, University of Colorado at BoulderrnBoulder, CO, United States;

Department of Mechanical Engineering, University of Colorado at BoulderrnBoulder, CO, United States;

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正文语种 eng
中图分类人体工程学;
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Deformation Mechanisms in Nanoindentation of Bone

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