Air flow patterns and noise analysis inside high speed angular contact ball bearings

• Published in: Journal of Central South University Vol. 22; no. 9; pp. 3358 - 3366
• Main Authors: Zhai, Qiang, Yan, Ke, Zhang, You-yun, Zhu, Yong-sheng, Wang, Ya-tai
• Format: Journal Article
• Language: English
• Published: Changsha Central South University 01.09.2015
• Subjects: Engineering; Metallic Materials; heat transfer efficiency; air phase flow; cage structure; high speed angular contact ball bearing
• ISSN: 2095-2899; 2227-5223
• DOI: 10.1007/s11771-015-2876-0

The vortex formed around the rolling ball and the high pressure region formed around the ball–raceway contact zone are the principle factors that barricades the lubricant entering the bearing cavity, and further causes improper lubrication. The investigation of the air phase flow inside the bearing cavity is essential for the optimization of the oil–air two-phase lubrication method. With the revolutionary reference frame describing the bearing motion, a highly precise air phase flow model inside the angular contact ball bearing cavity was build up. Comprehensive factors such as bearing revolution, ball rotation, and cage structure were considered to investigate the influences on the air phase flow and heat transfer efficiency. The aerodynamic noise was also analyzed. The result shows that the ball spinning leads to the pressure rise and uneven pressure distribution. The air phase velocity, pressure and cage heat transfer efficiency increase as the revolving speed increases. The operating noise is largely due to the impact of the high speed external flow on the bearing. When the center of the oil-air outlet fixes near the inner ring, the aerodynamic noise is reduced. The position near the inner ring on the bigger axial side is the ideal position to fix the lubricating device for the angular contact ball bearing.