Adaptive Diamond Turning for Micro-Structured Surfaces

Zhi Wei Zhu; Suet To

doi:10.4028/www.scientific.net/KEM.679.163

Paper Titles

Development and Modeling of a Macro/Micro Composite Positioning System for Microelectronics Manufacturing
p.135

Design and Analysis of a Planar Piezo-Actuated Nanopositioner with Millimeter Scale Stroke
p.143

The Assessment of Subsurface Damage in Ground Optics by Chemical Etching
p.149

A Framework of Data Fusion Algorithm for Precision Measurement of Multiscale Surfaces
p.155

Adaptive Diamond Turning for Micro-Structured Surfaces
p.163

A Study of Fiducial Aided Precision Positioning of Ultra-Precision Freeform Surfaces
p.167

Modeling and Adaptive Control Based on Actor-Critic Algorithm for a Piezo-Positioning System
p.173

Fabrication of Micro V-Grooves in Ultra-Precision Grinding
p.179

Using Collins Formula with Scaling Factor to Analysis the Propagation Properties in Laser Focus System Design
p.185

HomeKey Engineering MaterialsKey Engineering Materials Vol. 679Adaptive Diamond Turning for Micro-Structured...

Adaptive Diamond Turning for Micro-Structured Surfaces

Abstract:

In this paper, adaptive diamond turning (ADT) is proposed for micro-structured surfaces to obtain homogeneous surface quality without loss of efficiency. With consideration of the local shape variation of desired surfaces, the adaptation in feeding direction is to actively control motions along the x-axis to obtain constant scallop heights, whereas the adaptation in forwarding direction is to vary angular sampling intervals to obtain constant linearization errors. The basic principle of ADT is demonstrated, and unique features of the corresponding motions of the machine tool are detailed by numerical simulation. Two degree-of-freedoms fast tool servo or slow slide servo-based turning is strongly recommended to meet the requirements of the ADT method.