Kinematics Analysis on Ultrasonic Deep Rolling with Longitudinal-Torsional Vibration

Ao Mei Luo; Jian Xin Zheng; Hao Qiong Wu

doi:10.4028/www.scientific.net/AMR.630.148

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Theoretical Analysis and Experimental Study of Material Removal Characteristics in Bonnet Tool Polishing Process
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Study on Technological Parameters of Polishing Large Aspheric Elements
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Kinematics Analysis on Ultrasonic Deep Rolling with Longitudinal-Torsional Vibration
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Tool Wear and Surface Roughness Observation when Milling SKS3 Tool Steel with Electromagnetic Effects
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Study on the Temperature of Workpiece in Low-Frequency Vibration Drilling
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Design and NC Manufacturing of Plastic Injection Mold Based on UG Software
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The Control Software of Aspheric Optics in MRF
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Kinematics Analysis on Ultrasonic Deep Rolling with Longitudinal-Torsional Vibration

Abstract:

The kinematics model was built based on the principle of ultrasonic deep rolling (UDR) with longitudinal-torsional vibration (LTV), and the trajectory equations of any particles on edge of the roller involved in the process were given; the influences of vibration parameters including phase angle, frequency of LTV, amplitude of longitudinal vibration, amplitude ratio and the rolling process parameters including roller radius, rolling depth, feed rate, the rotation frequency of roller on the trajectory, acoustic system design and processing quality were discussed. The results can provide theoretical basis for the design of acoustic system and optimization of process parameters.