切向加载数字接触中的最小黏附面积。

Minimal adhesion surface area in tangentially loaded digital contacts.

机构信息

UPMC Univ Paris 06, UMR 7222, Institut des Systèmes Intelligents et de Robotique, Paris, France.

出版信息

J Biomech. 2011 Sep 2;44(13):2508-10. doi: 10.1016/j.jbiomech.2011.07.007. Epub 2011 Jul 19.

DOI:10.1016/j.jbiomech.2011.07.007

Abstract

The stick-to-slip transition of a fingertip in contact with a planar surface does not occur instantaneously. As the tangential load increases, portions of the skin adhere while others slip, giving rise to an evolution of the contact state, termed partial slip. We develop a quasi-static model that predicts that if the coefficient of kinetic friction is larger than the coefficient of static friction, then the stuck surface area diminishes as the tangential load increases until reaching a 'minimal adhesion surface area' where it vanishes abruptly. This phenomenon was observed in recently measured finger-slip image data (André et al., 2011) that were processed by an optic flow detection algorithm. We examined the results of 10 trials. Four of them exhibited the minimal adhesion surface area phenomenon, four of them did not, and two were inconclusive.

摘要

指尖与平面接触的黏滑转变并非瞬间发生。随着切向载荷的增加，部分皮肤会黏附，而其他部分会滑动，导致接触状态的演变，称为部分滑动。我们开发了一种准静态模型，该模型预测如果动摩擦系数大于静摩擦系数，那么随着切向载荷的增加，黏附面积会减小，直到达到一个“最小黏附面积”，此时它会突然消失。这种现象在最近测量的手指滑动图像数据（André 等人，2011）中得到了观察，这些数据是通过光流检测算法处理的。我们检查了 10 次试验的结果。其中有 4 次表现出最小黏附面积现象，4 次没有，2 次不确定。

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切向加载数字接触中的最小黏附面积。

Minimal adhesion surface area in tangentially loaded digital contacts.

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