Experimental Study on Optimizing Process Parameters in Two-Dimensional Ultrasonic Rolled Extrusion

Jian Xin Zheng; Jian Jun Jiang; Chuan Shao Liu

doi:10.4028/www.scientific.net/AMM.37-38.435

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 37-38Experimental Study on Optimizing Process...

Experimental Study on Optimizing Process Parameters in Two-Dimensional Ultrasonic Rolled Extrusion

Abstract:

Two-dimensional ultrasonic vibration was introduced into common rolled extrusion, effect of the process parameters including tool head radius, feed speed, preload and spindle speed on the 45 steel shaft surface roughness were analyzed through orthogonal experiments. Experimental results show that lower value of surface roughness may be obtained in the process of two-dimensional ultrasonic rolled extrusion than that of common rolled extrusion, and the influence order of process parameters on surface roughness is feed speed, spindle speed, preload and tool head radius; the influence curves of tool head radius and spindle speed on surface roughness are concave curves, and influence curves of feed speed and preload on surface roughness are convex curves, or optimizing process parameters exist. The empirical formula for surface roughness is given using multiple regression analysis based on the experimental results. This study will provide a new technique for finishing precision parts.