Angular Contact Ball Bearing Modeling with Different Types of Coatings

B.T. Loom, W. Zamri, A. Ariffin, M. F. Md Din, A. Shamsudeen
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Abstract

The purpose of this study is to determine the stress distribution of uncoated and coated ball bearings by using finite element analysis. The coatings used in this study are titanium nitride (TiN), titanium carbide (TiC) and chromium nitride (CrN) with a thickness of 5 microns. A contact analysis has been performed on ball bearings to compare the performance between coated and uncoated ball bearings. Boundary loads of 5000 N is used for contact analysis. This study tries to establish a simple, two-dimensional expression for the elastic deformation with the inner ring and ball bearing as a angular or curvature model in terms of the geometry of the coating contact surfaces. The coating of ball and raceway surfaces is a requisite but difficult factor to be determined during design, so it is desirable for engineering to understand the effect of surface coating on the motion of ball and subsurface stresses in bearing. For contact analysis, the maximum contact pressure and maximum stress on the coating, inner ring and ball bearing have been used for comparison. The results of this study show that, among other coatings, TiC provides the best protection for the ball of the ball bearing. This is because the low Poisson's ratio of TiC in other coated ball bearings helps reduce the stress on the ball bearing, even though TiC has the lowest Young's modulus in the coating. When a lower boundary load is applied, high COF will also cause an abnormal increase in the maximum stress on the contact surface between the coated or uncoated ball and the inner ring of the ball bearing.
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不同类型涂层的角接触球轴承建模
本研究的目的是通过有限元分析确定未涂覆和涂覆球轴承的应力分布。本研究使用的涂层为氮化钛(TiN)、碳化钛(TiC)和氮化铬(CrN),厚度为5微米。对球轴承进行了接触分析,比较了涂覆和未涂覆球轴承的性能。接触分析采用5000n的边界载荷。本研究试图建立一个简单的二维表达式,将内圈和球轴承的弹性变形作为涂层接触面几何形状的角或曲率模型。钢球和滚道表面的涂层是设计过程中必不可少但又难以确定的因素,因此了解表面涂层对钢球运动和轴承亚表面应力的影响是工程需要的。对于接触分析,使用涂层、内圈和球轴承上的最大接触压力和最大应力进行比较。本研究结果表明,在其他涂层中,TiC对滚珠轴承的球提供了最好的保护。这是因为其他涂层球轴承中TiC的低泊松比有助于降低球轴承上的应力,即使TiC在涂层中具有最低的杨氏模量。当施加下边界载荷时,高COF也将导致涂覆或未涂覆球与球轴承内圈之间接触面上的最大应力异常增加。
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