The strain-rate dependence of mechanical properties of rabbit knee ligaments

Yamamoto, Sota<sup>1</sup>; Saito, Akinori<sup>1</sup>; Nagasaka, Kei<sup>1</sup>; Sugimoto, Satoshi<sup>1</sup>; Mizuno, Koji<sup>1</sup>; Tanaka, Eiichi<sup>1</sup>; Kabayama, Masaki<sup>2</sup>

Affiliations

²Matsushita Electric Works, Ltd., Japan

Abstract

This study is concerned with the mechanical properties of knee joint ligaments, which are frequently injured in car-to-pedestrian collisions. Because of the lack of knowledge of the dynamic properties of these ligaments, there are some difficulties in finite element simulations of a car-to-pedestrian accident. Thus, we conducted tensile tests on the rabbit medial collateral ligament (MCL) and anterior cruciate ligament (ACL) to evaluate the strain-rate dependence of their mechanical properties. The failure stress of theMCL increased with the strain rate. The avulsion load of the MCL tibial insertion was lower than the failure load of the MCL in all conditions tested. Three types of failure patterns were observed in the femur-ACL-tibia complex. The tangent modulus and the maximum stress of the ACL complex increased with the strain rate. The strain-rate dependence of the mechanical properties of knee ligaments was evaluated quantitatively. The results are expected to be useful for discussion of the injury criteria for the knee joint and its protection.

Links

URL: http://www-nrd.nhtsa.dot.gov/pdf/esv/esv18/CD/Files/18ESV-000115.pdf

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Cited By (2)

Year	Entry
2007	Manning J. Development of a pedestrian legform to assess sensors used in active pedestrian protection systems. In: Proceedings of the 20th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 18-21, 2007; Lyon, France.
2016	Bonner TJ. An Investigation Into Lower Limb Injuries Caused by Improvised Explosive Devices [PhD thesis]. Imperial College London; 2016.