Research on Simulation and Design of Dynamical Vibration Absorption Lathe Tool with Large Length to Diameter Ratio

Bai Qin; Bo Zhang; Quan Fu Wang; Ya Juan Ji; Yan Jiang Zhao; Xiao Dong Yu; Yu Qiu Ma

doi:10.4028/www.scientific.net/AMM.274.99

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 274Research on Simulation and Design of Dynamical...

Research on Simulation and Design of Dynamical Vibration Absorption Lathe Tool with Large Length to Diameter Ratio

Abstract:

The dynamic simulation analysis method is adopted to investigate the dynamic damping characteristics of lathe tool with large length to diameter (L/D) ratio. The multi flexible body dynamical simulation model of dynamical damping lathe tool with large length to diameter ratio is built up according to the actual experiment lathe by using the software ADAMS and ANSYS. Simulation analysis of the multi flexible body dynamical model which has been optimized shows that the system damping performance is improved greatly. On this basis the relationship of rubber bush, mass body and vibration absorption cavity is discussed. And the result of the discussion indicates that the shape of rubber bush should be confirmed by repeatedly simulating the model.