Abstract:To solve the problem that cylindrical roller bearings were easily worn under heavy load conditions, a doublelayer metal composite inner ring cylindrical roller bearing was designed. Taking the contact between the composite inner ring and the roller as example, the maximum contact stress of a single roller and the bearing inner ring was obtained based on Hertz contact theory and Boussinesq theory. The mechanical model of combined layer composite material was used to calculate the doublelayer metal composite equivalent elastic modulus of inner ring. The contact model between inner ring and single roller was established, and the finite element simulation method was used to explore contact stress and elastic deformation for different material thickness. Through contact friction test, the contact widths were verified with different material thicknesses of composite inner ring. The results show that the contact deformation of doublelayer metal composite between inner ring bearing roller and inner ring is increased with reduced contact stress, which is helpful to reduce the wear of cylindrical roller bearing.
樊曙天, 徐兴超, 王匀, 王佳琪, 王小康. 双金属复合内圈滚动轴承接触特性分析[J]. 江苏大学学报(自然科学版), 2021, 42(4): 395-399.
FAN Shutian, XU Xingchao, WANG Yun, WANG Jiaqi, WANG Xiaokang. Analysis of contact characteristics of doublelayer metal composite inner ring rolling bearings[J]. Journal of Jiangsu University(Natural Science Eidtion)
, 2021, 42(4): 395-399.