Experimental and theoretical investigation into surface roughness and residual stress using ball end magnetorheological finishing

Abstract: The generation of residual stresses by grinding process on the surface for a soft material results in poor performance and diminished life. In this paper, grinding-induced residual stresses is addressed and an attempt is made to relieve these residual stresses while achieving nano level surface finish using ball end magnetorheological finishing (BEMRF) process. BEMRF is a recently developed process that is effectively used to for fine figuring and polishing of a variety of magnetic and non-magnetic materials. … Show more

“…There is a significant demand for nano-meter and macro-meter items possessing excellent polished surface and strength in this age of new industrialization revolution. The surface finish has a direct impact on the optical quality, mechanical characteristics, and bio-medical functions of microparts [1,2]. Engineering materials are utilized in a variety of applications to meet industrial objectives by leveraging qualities like conductivity, ductility, and lightweight [3].…”

Surface topography assessment using chemical assisted ball end magnetorheological finishing

“…There is a significant demand for nano-meter and macro-meter items possessing excellent polished surface and strength in this age of new industrialization revolution. The surface finish has a direct impact on the optical quality, mechanical characteristics, and bio-medical functions of microparts [1,2]. Engineering materials are utilized in a variety of applications to meet industrial objectives by leveraging qualities like conductivity, ductility, and lightweight [3].…”

Surface topography assessment using chemical assisted ball end magnetorheological finishing

Determination of Residual Stresses and Surface Roughness Using Chemical Assisted Ball End Magnetorheological Finishing