Mechanical Analysis of Collagen/Mineral Nano-Composite of Bone Tissue by X-ray Diffraction

Q4 Engineering
M. Todoh
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引用次数: 0

Abstract

Bone is often regarded as a composite material consisting of mineral particles and organic matrix (mostly Type I collagen) on a microscopic scale. The mechanical properties of bone tissues at a macroscopic scale depend on the structural organization and properties of constituents in the microscopic scale. It is the interaction between the mineral and organic material that determines the mechanical properties. However, both mechanical behaviors of mineral and collagen phases are not clear yet. In this study, to clear both mechanical behaviors of collagen matrix and apatite crystals in bone, the cortical bone samples were collect from bovine femoral diaphysis. The microscopic mechanical behaviors of both mineral particles of apatite and collagen matrix in bone tissues were observed by wide angle X-ray diffraction (WAXD) and small angle X-ray scattering (SAXS), respectively. In combination with micro-tensile device, both strains of mineral and collagen phases were measured.
骨组织胶原/矿物纳米复合材料的x射线衍射力学分析
在微观尺度上,骨通常被认为是由矿物颗粒和有机基质(主要是I型胶原蛋白)组成的复合材料。骨组织在宏观尺度上的力学性能取决于微观尺度上成分的结构组织和性质。正是矿物和有机物之间的相互作用决定了材料的力学性能。然而,矿物相和胶原相的力学行为尚不清楚。为了明确骨中胶原基质和磷灰石晶体的力学行为,本研究采集了牛股骨干皮质骨样本。采用广角x射线衍射(WAXD)和小角x射线散射(SAXS)分别观察了骨组织中磷灰石和胶原基质矿物颗粒的微观力学行为。结合微拉伸装置,测定了两菌株的矿物相和胶原相。
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