Development of a Fast Tool Servo for Ultraprecision Turning

Yan Ling Tian; Da Wei Zhang; Hong Hui Ruan

doi:10.4028/www.scientific.net/MSF.532-533.33

Paper Titles

Study on Residual Stress of 3A21 Metal Sheet by Laser Shock in Oblique Angle
p.17

Experimental Study of Micro Holes Machining by USM
p.21

Hot Press Sintering and Superplastic Forming of Fine-Grained Si₃N₄-Si₂N₂O Composites
p.25

Experimental Study of Micro-Flowing Characteristics of Liquid Transport in Round Micro-Channels
p.29

Development of a Fast Tool Servo for Ultraprecision Turning
p.33

Microstructure and Mechanical Properties of Nano-Scale Al₂O₃ Toughened Ti (C,N) Matrix Cermet Tool Materials
p.37

Effects of Additives and CBN Grit Size on the Machinability of PCBN Tools
p.41

Influence of Cutter’s Helix Angle, Workpiece Hardness, Milling Orientation, and MQL in High-Speed Side Milling of AISI D2
p.45

Synthesis Error Modeling and Thermal Error Compensation of Five-Axis Machining Center
p.49

HomeMaterials Science ForumMaterials Science Forum Vols. 532-533Development of a Fast Tool Servo for...

Development of a Fast Tool Servo for Ultraprecision Turning

Abstract:

In order to implement dynamic control during ultrapre cision turning operation, a piezo-electrically driven fast tool servo is developed. The parallel flexure hinge is utilized to guide the moving platform and to provide preload. A high resolution capacitive sensor is used to measure the displacement of the fast tool servo for closed loop control. With consideration of the driving circuit, the dynamic model of the fast tool servo has been established. The effect of the driving circuit on the dynamic response of the fast tool servo is investigated. The experimental tests have been carried out to verify the established model and the performance of the fast tool servo.