Analysis of the Tribothermal and Mechanical Behavior of Copper-Steel and Brass-Steel Sliding Couples

Boubechou Choubeila, Bouchoucha Ali, Bouzaouit Azeddine
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Abstract

This article deals with a comparative study of the thermomechanical behavior of copper-steel and brass-steel tribological couples, as a function of functional parameters: contact mode, dynamic torsor, contact kinematics and the materials making up the tribosystem. For this purpose, friction and wear tests were carried out using a pin-disc tribometer, in an atmospheric environment. This consists of a copper or brass pin rubbing dry against a rotating steel disc. A Comsol Multiphysics numerical code was used to evaluate contact temperature, mechanical stresses and deformations at the interface of the pairs. The results obtained show that the above-mentioned parameters have a significant influence on the tribomechanical and thermal behavior of the two couples. Indeed, the dissipation of heat by sliding modifies the physicochemical and mechanical properties of the materials, and promotes the oxidation process. In addition to the formation of oxides, the mutual material transfer mechanism plays a key role in the friction and wear of the couples. The discussion of the results is based on macroscopic and microscopic observations of worn surfaces and the interfacial phenomena resulting from sliding.
铜-钢和黄铜-钢滑动副的摩擦热性能和力学性能分析
本文比较研究了铜-钢和黄铜-钢摩擦副的热力学行为与摩擦系统的功能参数:接触方式、动态变形量、接触运动学和组成摩擦系统的材料的关系。为此,在大气环境中使用针盘摩擦计进行了摩擦和磨损试验。这包括一个铜或黄铜销摩擦干燥的旋转钢盘。采用Comsol Multiphysics数值计算程序计算了接触温度、力学应力和接触面变形。结果表明,上述参数对两偶的摩擦力学和热行为有显著影响。事实上,滑动的散热改变了材料的物理化学和机械性能,并促进了氧化过程。除了氧化物的形成外,材料相互传递机制在摩擦磨损中起着关键作用。对结果的讨论是基于对磨损表面的宏观和微观观察以及由滑动引起的界面现象。
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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