O. Lambri, J. Pérez-Landazábal, F. G. Bonifacich, V. Recarte, M. L. Lambri, G. Zelada, F. Tarditti, D. Gargicevich
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引用次数: 7
摘要
据报道,在骨骼中出现的最大宽阻尼,包括皮质和松质部分,大约在280k和420k之间;已确定是在松质和皮质部分不同温度下发生的不同过程的组成。事实上,在本工作中,牛肋骨骨的力学响应已经通过耦合力学光谱、差示扫描量热法、热重法和扫描电镜研究进行了分析。松质部分在320 K和350 K左右产生两个最大阻尼。皮层部分在310 K ~ 410 K之间表现出较大的阻尼松弛,在390 K ~ 410 K之间表现出另一个阻尼松弛。讨论了引起上述弛豫过程的物理化学驱动力。
Damping Micromechanisms for Bones above Room Temperature
The wide damping maximum which is reported to appear in bones, involving both cortical and cancellous parts, between around 280 K and 420 K; has been determined to be a composition of different processes taking place at different temperatures in cancellous and cortical parts. In fact, in the present work the mechanical response of cow ribs bones has been analysed by coupling mechanical spectroscopy, differential scanning calorimetry, thermogravimetry and scanning electron microscopy studies. Cancellous part develops two damping maxima at around 320 K and 350 K. Cortical part exhibits a wide maximum in damping between around 310 K and 410 K and another damping relaxation between 390 K and 410 K. The physical-chemical driving force giving rise to the above relaxation processes are discussed.
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