Effects of Deformation and Slip Velocity with Transverse Rough on the behaviour of a Rectangular plate with Hydromagnetic Based Squeeze film BearingPages 23-31
Abstract:
This work describes the bearing deformation and slip velocity that occur as a result of the interaction in hydromagnetic squeeze film and Transverse irregularity on rectangular plate. During the investigation, the hydromagnetic lubrication theory and the slip model developed by Beavers & Joseph were used. Additionally, the generalized Reynolds type equations for the pressure of the fluid film were obtained by applying the suitable boundary conditions. Finally, the expressions for distribution of pressure and bearing’s load as a function of slip parameter, irregularity parameter, and Hartmann number were derived. The stochastic averaging model that C&T developed has been utilized in this study so that the influence of Transverse irregularity can be determined. It has come to light that the implementation of the magnetic field effect results in a discernible in the load of the system as a whole. Although the joint impact of slip velocity and bearing deformation can be overcome to a great extent when negatively skewed irregularity occurs, it is made abundantly evident by the data that are graphically shown that this is not always the case. It is still necessary to keep the slip parameter as low as possible in order to achieve any type of development in the bearing performance characteristics. This is the case even if the parameter is kept as low as possible.
Keywords: Irregularity, Rectangular plates, Slip velocity, Deformation, Hydromagnetic fluid
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