Non-Linear Dynamics of Simple Elastic Systems Undergoing Friction-Ruled Stick–Slip Motions

CivilEng Pub Date : 2024-05-03 DOI:10.3390/civileng5020021

R. Barsotti, S. Bennati, Giovanni Migliaccio

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Abstract

The stick–slip phenomenon is a jerking motion that can occur while two objects slide over each other with friction. There are several situations in which this phenomenon can be observed: between the slabs of the friction dampers used to mitigate vibrations in buildings, as well as between the components of the base isolation systems used for seismic protection. The systems of this kind are usually designed to work in a smooth and flawless manner, but under particular conditions undesired jerking motions may develop, yielding complex dynamic behavior even when only a few degrees of freedom are involved. A simplified approach to the problems of this kind leads to the mechanical model of a rigid block connected elastically to a rigid support and at the same time with friction to a second rigid support, both the supports having a prescribed motion. Despite the apparent simplicity of this model, it is very useful for studying important features of the non-linear dynamics of many physical systems. In this work, after a suitable formulation of the problem, the equations of motion are solved analytically in the sticking and sliding phases, and the influence of the main parameters of the system on its dynamics and limit cycles is investigated and discussed.

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发生摩擦规则棒滑运动的简单弹性系统的非线性动力学

粘滑现象是两个物体在摩擦力作用下相互滑动时产生的一种抽搐运动。有几种情况下会出现这种现象：用于减轻建筑物振动的摩擦阻尼器的板块之间，以及用于抗震保护的基础隔离系统的组件之间。此类系统通常设计为平稳无误地工作，但在特定条件下可能会出现不希望出现的抽搐运动，即使只涉及几个自由度，也会产生复杂的动态行为。解决这类问题的简化方法是建立一个机械模型，即一个刚性块与一个刚性支座弹性连接，同时与第二个刚性支座摩擦连接，两个支座都有规定的运动。尽管这种模型表面上看似简单，但对于研究许多物理系统非线性动力学的重要特征却非常有用。在这项工作中，在对问题进行适当表述后，对粘滞和滑动阶段的运动方程进行了分析求解，并研究和讨论了系统主要参数对其动力学和极限循环的影响。

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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来源期刊

CivilEng

CiteScore

2.80

自引率

0.00%

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