The grindability of high-temperature alloy by using ceramic alumina wheels is studied on the basis of extensive analysis of the grinding force,grinding temperature,surface roughness and topography of ground surfaces,residual stress,hardness distribution of surface layer,and morphology of the surface layer from a metallographic point of view.The grinding burn mechanism of high-temperature alloy is unveiled and the feasible grinding parameters to avoid burning are analyzed.Some conclusions are obtained as follows.Increasing the grinding depth or the wheel velocity makes grinding temperature and residual tensile stress of the surface rise,which deteriorates the surface topography.Appropriate liner velocity of the wheel is 18-22 m/s and the depth of grinding should not exceed 0.02 mm in grinding GH2132 alloy with ceramic alumina wheels to assure the surface quality.When ap increases enough to cause grinding burn,the strengthening effect of particles γ' in γ base decrease and the micro-hardness of the surface is obviously lower than that of the base material,which deteriorates the mechanical properties and heat resistance of GH2132 alloy.Results provide a theoretical and experimental basis for technical optimization in the grinding of high-temperature alloy with high efficiency and high quality.
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