The problems of contact, joint and connection play important roles in every field of industry. Some micro-mechanical and electronic devices have elements that create friction against each other while in contact with one another all the time. Even though a small normal load is applied on the movement or behavior, the influence of the interaction between contact surfaces in all fields of industry cannot be ignored. In this study, how contact areas are varied in the slipping range between glass substrate and micro-glass spheres with varied diameters was investigated. In order to study the variations of contact areas, micro-glass spheres (dry borosilicate glass spheres) with different diameters (D =10μm, D =20μm) were glued to stainless steel-cantilevers (spring constant k =577N/m). The experiments were performed in various normal applied loads using AFM (Atomic force microscope) and variations between contact areas were simulated using the FEM (Finite Element Method). The variations on contact areas were compared using the results of the experiment using AFM and FE analyses in the contacted range for slipping of each micro-glass sphere. In addition to that, these were considered to be based on the wear volume and roughness as parameters due to their variations. From the results of the experiment, the contact area by the surface forces is dominated by increases and decreases of the wear volume due to the contact pressure force. Also, the influence of the deformation of the contact area due to contact pressure force cannot be ignored.
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机译:接触,接合和连接的问题在各个行业中都扮演着重要角色。一些微机械和电子设备具有在彼此始终接触的同时彼此产生摩擦的元件。即使在运动或行为上施加小的法向载荷,在所有工业领域中,接触面之间相互作用的影响也不能忽略。在这项研究中,研究了在玻璃基板和直径不同的微玻璃球之间的滑动范围内,接触面积如何变化。为了研究接触面积的变化,将具有不同直径( D =10μm, D =20μm)的微玻璃球(干燥的硼硅酸盐玻璃球)粘在不锈钢悬臂上(弹簧常数 k = 577N / m)。使用AFM(原子力显微镜)在各种正常施加的载荷下进行实验,并使用FEM(有限元方法)模拟接触面积之间的变化。使用AFM和FE分析的实验结果,在每个微玻璃球的滑动接触范围内,比较了接触面积的变化。除此之外,由于它们的变化,这些被认为是基于磨损量和粗糙度作为参数。从实验结果来看,由于接触压力,表面力的接触面积主要由磨损量的增加和减少决定。而且,不能忽略由于接触压力引起的接触区域变形的影响。
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