Experimental Method of Tribological Modelling of Different Coatings of Stainless Steel

Q3 Engineering Mechanics and Mechanical Engineering Pub Date : 2018-12-01 DOI:10.2478/mme-2018-0098

Kaid-Ameur Djilali, M. Serrier

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Abstract

Abstract Fretting wear is a unique form of material degradation caused by small amplitude oscillatory relative motion of two surfaces in contact. Fretting wear is typically encountered at relative displacements of less than 300 μm and occurs in either a gross slip regime [1] (where there is slip displacement across the whole contact), or a partial slip regime (where there are parts of the contact where no slip displacement occurs). Fretting wear is experienced within a wide range of industrial sectors, [2] including aero engine couplings, locomotive axles and nuclear fuel casings [3]. Under higher loads and smaller displacement amplitudes, the contact will be within the partial slip regime, often resulting in fretting fatigue where the dominant damage mode is a reduction in fatigue life [4]. Friction is a very common phenomenon in daily life and industry, which is governed by the processes occurring in the thin surfaces layers of bodies in moving contact. The simple and fruitful idea used in studies of friction is that there are two main non-interacting components of friction, namely, adhesion and deformation [5, 6].

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不锈钢不同涂层摩擦学建模的实验方法

微动磨损是由两个接触表面的小幅度振荡相对运动引起的材料退化的一种独特形式。微动磨损通常发生在相对位移小于300 μm时，并且发生在总滑移状态[1](整个接触点存在滑移位移)或部分滑移状态(接触点的某些部分不发生滑移位移)。微动磨损在工业领域广泛存在，包括航空发动机联轴器、机车车轴和核燃料套管。在较高的载荷和较小的位移幅值下，接触将处于局部滑移状态，通常导致微动疲劳，其中主要的损伤模式是疲劳寿命的降低。摩擦在日常生活和工业中是一种非常普遍的现象，它是由运动接触的物体的薄表面层所发生的过程所控制的。在摩擦研究中使用的简单而富有成效的想法是，摩擦力有两个主要的非相互作用成分，即附着和变形[5,6]。

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Mechanics and Mechanical Engineering Engineering-Automotive Engineering

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