Combining mechanical and biomechanical testing to improve understanding of shoe-surface effects on traction

James Clarke; Loic Damm; Sharon Dixon; Matt Carre

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Combining mechanical and biomechanical testing to improve understanding of shoe-surface effects on traction

机译：结合机械和生物力学测试，以更好地理解鞋表面对牵引力的影响

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The HC surface provides greater static and dynamic COT showing it is easier to initiate and to keep sliding on the AC surface. Cl shoes when they are used on AC could facilitate sliding by lowering the dynamic COT. As suggested by Stefanyshyn (2006), combining bio-mechanical and mechanical testing contributes to a better understanding of loading and traction.

机译：HC表面可提供更大的静态和动态COT，这表明它易于启动并在AC表面上保持滑动。 Cl鞋在AC上使用时，可以通过降低动态COT来促进滑动。正如Stefanyshyn（2006）所建议的那样，将生物力学和机械测试相结合有助于更好地了解载荷和牵引力。

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《Footwear science》 |2013年第s1期|116-117|共2页
作者
James Clarke; Loic Damm; Sharon Dixon; Matt Carre;
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University of Sheffield, Mechanical Engineering, Mappin St, Sheffield, S10 4DF United Kingdom;

University of Exeter, Exeter Biomechanics Team, College of Life and Environmental Science, St Luke's Campus, Heavitree Road, Exeter, EX1 2LU United Kingdom;

University of Exeter, Exeter Biomechanics Team, College of Life and Environmental Science, St Luke's Campus, Heavitree Road, Exeter, EX1 2LU United Kingdom;

University of Sheffield, Mechanical Engineering, Mappin St, Sheffield, S10 4DF United Kingdom;

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Combining mechanical and biomechanical testing to improve understanding of shoe-surface effects on traction

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