To meet the precision machining needs of axisymmetric revolving curved surface, the arc envelope grinding technology for curved surface is studied so as to make a breakthrough in the current process. The particularity of arc envelope grinding of curved surface is analyzed. Through the analysis of the forming process of grinding curved surface, the geometric model of the grinding wheel interfering with the workpiece during the arc envelope grinding is established. Through the analysis of the moving distance of grinding point, the relationship between the effective moving distance, the radius of arc of grinding wheel, and the curvature radius of workpiece is established. It is optimized and analyzed that the grinding point on the surface of grinding wheel has the maximum motion quantity to improve the wear resistance of grinding wheel. Based on the calculation of curvature of machined curved surface, the change in feeding rate can be adjusted to ensure the uniform surface roughness of the curved surface. It provides a theoretical basis for the practical application of Arc Envelope Grinding Method (AEGM) for curved surface.
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