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NTIS 바로가기한국정밀공학회지 = Journal of the Korean Society for Precision Engineering, v.38 no.11, 2021년, pp.851 - 862
Rivera, Gilbert , Tong, Van-Canh , Hong, Seong-Wook
초록이 없습니다.
Harris, T. A. “Rolling Bearing Analysis,” John Wiley & Sons, 4th Ed., 2001.
Gupta, Pradeep K.. Current Status of and Future Innovations in Rolling Bearing Modeling. Tribology transactions : a publication of the Society of Tribologists and Lubrication Engineers, vol.54, no.3, 394-403.
Hamrock, B. J. and Anderson, W. J., “Rolling-Element Bearings,” http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.693.8552&rep=rep1&type=pdf (Accessed 20 OCTOBER 2021)
Tong, Van-Canh, Hong, Seong-Wook. Modeling and analysis of double-row cylindrical roller bearings. Journal of mechanical science and technology, vol.31, no.7, 3379-3388.
Anderson, W., Parker, R., and Zaretsky, E., “A Review of Ball Motion in an Angular Contact Ball Bearing,” https://ntrs.nasa.gov/api/citations/19660018728/downloads/19660018728.pdf (Accessed 20 OCTOBER 2021)
Stolarski, T., “Tribology in Machine Design,” Industrial Press Inc., 1990.
Popescu, A., Houpert, L., Olaru, D.N.. Four approaches for calculating power losses in an angular contact ball bearing. Mechanism and machine theory, vol.144, 103669-.
Fernandes, C.M.C.G., Amaro, P.M.P., Martins, R.C., Seabra, J.H.O.. Torque loss in thrust ball bearings lubricated with wind turbine gear oils at constant temperature. Tribology international, vol.66, 194-202.
Fernandes, C. M. C. G., “Power Loss in Rolling Bearings and Gears Lubricated with Wind Turbine Gear Oils,” Dissertation for Faculdade de Engenharia da Universidade do Porto, Proquest Dissertations Publishing, 2015.
Hirano, F., Tanoue, H.. Motion of a ball in a ball bearing. Wear: An international journal on the science and technology of friction, lubrication and wear, vol.4, no.3, 177-197.
Hirano, Fujio. Motion of a Ball in Angular-Contact Ball Bearing. ASLE transactions : a publication of the society of tribologists and lubrication engineers, vol.8, no.4, 425-434.
Harris, T. A.. An Analytical Method to Predict Skidding in High Speed Roller Bearings. ASLE transactions : a publication of the society of tribologists and lubrication engineers, vol.9, no.3, 229-241.
Boness, R. J.. Minimum Load Requirements for the Prevention of Skidding in High Speed Thrust Loaded Ball Bearings. Transactions of the ASME. journal of lubrication technology. Sries F, vol.103, no.1, 35-39.
Tung Liao, Neng, Lin, Jen Fin. Ball bearing skidding under radial and axial loads. Mechanism and machine theory, vol.37, no.1, 91-113.
Xu, T., Xu, G., Zhang, Q., Hua, C., Tan, H., Zhang, S., Luo, A.. A preload analytical method for ball bearings utilising bearing skidding criterion. Tribology international, vol.67, 44-50.
Oktaviana, Laily, Tong, Van-Canh, Hong, Seong-Wook. Skidding analysis of angular contact ball bearing subjected to radial load and angular misalignment. Journal of mechanical science and technology, vol.33, no.2, 837-845.
Jones, A. B.. Ball Motion and Sliding Friction in Ball Bearings. Journal of basic engineering, vol.81, no.1, 1-12.
Harris, T. A.. Ball Motion in Thrust-Loaded, Angular Contact Bearings With Coulomb Friction. Transactions of the ASME. journal of lubrication technology. Sries F, vol.93, no.1, 32-38.
Houpert, L., “Numerical and Analytical Calculation in Ball Bearing,” Proc. of the 8th European Space Mechanisms and Tribology Symposium, 1999.
Paleu, V., Damian, I., and Cretu, S., “Numerical Kinematics Analysis of Ball Bearings,” Vol. 51, No. 54, pp. 423-430, 2005.
Chen, Zhuang, Chen, Guanci. Effects of Ball’s Rolling, Gyroscopic, and Spin Slide in a Ball Bearing on Raceway’s Stress and Fatigue Life. Journal of tribology, vol.142, no.8, 082301-.
Tong, Van-Canh, Hong, Seong-Wook. Study on the running torque of angular contact ball bearings subjected to angular misalignment. Proceedings of the Institution of Mechanical Engineers. Part J, Journal of engineering tribology, vol.232, no.7, 890-909.
Tong, Van-Canh, Hong, Seong-Wook. Improved Formulation for Running Torque in Angular Contact Ball Bearings. International journal of precision engineering and manufacturing, vol.19, no.1, 47-56.
Morales-Espejel, G., “Using a Friction Model as an Engineering Tool,” EVolution SKF, Vol. 6, No. 2, pp. 27-30, 2006.
de Mul, J. M., Vree, J. M., Maas, D. A.. Equilibrium and Associated Load Distribution in Ball and Roller Bearings Loaded in Five Degrees of Freedom While Neglecting Friction-Part I: General Theory and Application to Ball Bearings. Journal of tribology, vol.111, no.1, 142-148.
SKF, “The SKF Model for Calculating the Frictional Moment,” http://www.skf.com/binary/21-299767/The0SKF0model0for0calculating0the0frictional0movement_tcm_12-299767.pdf (Accessed 20 OCTOBER 2021)
KAKUTA, Kazuo. Friction Moment of Radial Ball Bearing under Thrust Load. 日本機械學會論文集 = Transactions of the Japan Society of Mechanical Engineers, vol.27, no.178, 945-956.
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