The influence of elastohydrodynamic lubrication on the stiffness of deep groove ball bearing

Abstract: An accurate modeling of roller bearing element, considering the complex contact behavior and load conditions, is very important to the geared-rotor system design. This paper presents an enhanced bearing stiffness matrix for a deep groove ball bearing by including the elastohydrodynamic lubrication (EHL) effects in the ball-raceway contact. The bearing model is subjected to the coupled lateral-translational loads. The EHL contact is calculated by employing the multilevel method. Then, the EHL result was used to… Show more

“…Wang et al (2015) proposed a frictional torque formula of the deep groove bearing actuated by radial loads and found that introduction of the EHL to the frictional torque formula helps to improve the formula's accuracy. Zhang et al (2016) presented a new equilibrium equation an its stiffness matrix for a deep groove ball bearing considering the EHL effects of the ball-raceway, with which the EHL effect on the coupling stiffness coefficients is identified easily.…”

Thermal elastohydrodynamic lubrication analysis of deep groove ball bearing

“…Wang et al (2015) proposed a frictional torque formula of the deep groove bearing actuated by radial loads and found that introduction of the EHL to the frictional torque formula helps to improve the formula's accuracy. Zhang et al (2016) presented a new equilibrium equation an its stiffness matrix for a deep groove ball bearing considering the EHL effects of the ball-raceway, with which the EHL effect on the coupling stiffness coefficients is identified easily.…”

Thermal elastohydrodynamic lubrication analysis of deep groove ball bearing

Numerical Investigation of the Effect of Ball Bearing Geometry on Oil Film Damping Due to Lubricated Contact at Different Loads

Study of Time-Varying Oil Film Damping and Contact Stiffness of Ball Bearings