Abstract
A theoretical study of MHD with viscosity variation on the squeeze film attributes of a curved circular plate and a flat porous plate using couple stress fluid is examined in this paper. The Reynolds equation in modified is inferred and same is solved to get the expression for film pressure, load supporting capacity and response time in non-dimensional form. As per the computed results, the squeeze film attributes are improved by using a non-Newtonian fluid as a lubricant in association with a magnetic effect. Also, the impact of viscosity variation enhances the squeeze film attributes in comparison with constant viscosity whereas the permeability factor declines the pressure, load supporting capacity and response time as compared to non-porous case.
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