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Biomechanics of Anterior Cruciate Ligament Failure: An Analysis of Strain-Rate Sensitivity and Mechanisms of Failure in Primates.

机译：前交叉韧带损伤的生物力学：灵长类动物的应变率敏感性和失败机制分析。

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Anterior cruciate bone-ligament-bone preparations of wild primates tested in tension failed at a higher load and greater elongation, and absorbed more energy, at a fast rate of deformation than at a slow rate. The major mode of specimen failure changed from a predominance of tibial avulsion fractures at the slow rate to ligament disruption at the fast rate. Failure at the two deformation rates commonly occurred by a serial mechanism involving from one to all components of the bone-ligament-bone unit to different degrees. Factors important in ligament-failure properties included: (1) rate-dependent behavior, (2) geometrical arrangement of collagen fibers, (3) surrounding ground-substance effects, (4) osseous insertion-site effects, and (5) the influence of non-physiological experimental loading conditions and disuse-induced changes in specimens. (Author)

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作者
Noyes, F. R.; DeLucas, J. L.; Torvik, P. J.;
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年度 1973
页码 1-21
总页数 21
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Ligaments; Bones; Biomechanics; Strain rate; Failure(Mechanics); Primates; Macaca mulatta; Tibia; Knee(Anatomy); Tensile properties; Elongation; Orthopedics; Deformation; Loads(Forces); Reprints; Anterior cruciate ligament; Femur;

机译：韧带;骨骼;生物力学;应变率;失败（机械）;灵长类动物;猕猴;胫骨;膝盖（解剖学）;拉伸性能;伸长率;骨科;变形;负荷（力）;重印;前十字韧带;股骨;
入库时间 2022-08-29 11:40:29

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机译：韧带失效的生物力学II。灵长类动物的固定，运动和修复效果分析。

Biomechanics of Anterior Cruciate Ligament Failure: An Analysis of Strain-Rate Sensitivity and Mechanisms of Failure in Primates.

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