Energy dissipation and hysteresis cycles in pre-sliding transients of kinetic friction

Pub Date : 2023-11-08 DOI:10.21136/AM.2023.0283-22
Michael Ruderman
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Abstract

The problem of transient hysteresis cycles induced by the pre-sliding kinetic friction is relevant for analyzing the system dynamics, e.g., of micro- and nano-positioning instruments and devices and their controlled operation. The associated energy dissipation and consequent convergence of the state trajectories occur due to the structural hysteresis damping of contact surface asperities during reversals, and it is neither exponential (i.e., viscous type) nor finite-time (i.e., Coulomb type). In this paper, we discuss the energy dissipation and convergence during the pre-sliding cycles and show how a piecewise smooth force-displacement hysteresis map enters into the energy balance of an unforced system of the second order. An existing friction modeling approach with a low number of the free parameters, the Dahl model, is then exemplified alongside the developed analysis.

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动摩擦预滑动瞬态的能量耗散和迟滞循环
预滑动动摩擦引起的瞬态迟滞循环问题与分析系统动力学有关,例如微纳定位仪器和设备及其控制操作。状态轨迹的相关能量耗散和随之的收敛是由于在反转过程中接触面凹凸的结构滞回阻尼而发生的,它既不是指数型(即粘性型)也不是有限时间型(即库仑型)。本文讨论了预滑动循环过程中的能量耗散和收敛问题,并给出了一个分段平滑的力-位移滞回图如何进入二阶非强制系统的能量平衡。现有的一种自由参数较少的摩擦建模方法,即Dahl模型,然后与开发的分析一起举例说明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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