Exchange Interaction and Models of Contact Generation of Disturbances in Tribosystems

Mechanical Engineering eJournal Pub Date : 2020-08-31 DOI:10.15587/1729-4061.2020.209927

Yu. P. Zaspa, A. Dykha, D. Marchenko, S. Matiukh, Y. Kukurudzyak

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引用次数: 3

Abstract

The physical mechanisms have been investigated that form and transform the corpuscular-vortex-wave thermal complexes of disturbances in contact tribosystems based on the quantum-mechanical exchange interaction. The presence of a contact gap determines the generation of pairs of quasi-particles-disturbances stabilized by wavelength and frequency. Internal instability and collapse processes in such a system of disturbances lead to the formation of defects in a tribopair's material and underlie the emergency friction regimes. This paper gives specific technical examples of the generation of thermal complexes at fretting, during the friction of sliding and rolling, and at cutting. It has been established that the destructive nature of the process of fretting at low values of reverse sliding speeds is caused by the generation and collapse of the corpuscular-vortex-wave thermal complexes. An example of acoustic friction emission in the ultrasonic region of the spectrum has been used to show the quantum nature of the disturbances generated by friction. The high-frequency spectrum of acoustic emission corresponds to the unbalanced composition of the disturbances and leads to the formation of wear particles. The exchange interaction in a tribosystem involving rolling on the plane has been considered. The results of statistical analysis of such rolling showed the existence of the effect of negative friction caused by the quantum generation of longwave disturbances. It has been demonstrated that the collapsed component of the generation of disturbances is significantly increased under the modes of materials destruction, including when cutting the materials. The corpuscular-vortex-wave mechanism of selective transfer and hydrogen wear in tribosystems has been described. It is shown that the properties of a servovite film under the mode of selective transfer are provided by the collapse processes in the system of disturbances. Similar processes at the vortex-wave transfer of hydrogen atoms in metals lead to the wear and destruction of the surface layer of friction

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摩擦系统中扰动的交换相互作用和接触产生模型

基于量子力学交换相互作用，研究了接触摩擦系统中扰动的微粒-涡-波热复合物的形成和转化的物理机制。接触间隙的存在决定了由波长和频率稳定的准粒子扰动对的产生。这种扰动系统中的内部不稳定和崩溃过程导致摩擦副材料中缺陷的形成，并成为紧急摩擦机制的基础。本文给出了微动、滑动和滚动摩擦以及切削时产生热络合物的具体技术实例。已经确定，在低反向滑动速度下微动过程的破坏性是由微粒-涡-波热复合物的产生和崩溃引起的。在光谱的超声区域的声摩擦发射的一个例子已经被用来显示由摩擦产生的扰动的量子性质。声发射的高频频谱对应于扰动的不平衡组成，并导致磨损颗粒的形成。考虑了平面上滚动摩擦系统的交换相互作用。对这种滚动的统计分析结果表明，长波扰动量子产生的负摩擦效应是存在的。已经证明，在材料破坏模式下，包括切割材料时，扰动产生的崩塌分量显着增加。描述了摩擦系统中微粒-涡-波的选择性传递和氢磨损机理。结果表明，在选择性转移模式下，servoite薄膜的性能是由扰动系统中的坍塌过程提供的。金属中氢原子涡波传递的类似过程导致摩擦表层的磨损和破坏

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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Mechanical Engineering eJournal

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