Three-Dimensional Wheel Topography Measurement with Laser Triangulation

Jia Liu; Wu Yi Chen; F. Chen

doi:10.4028/www.scientific.net/KEM.499.384

Paper Titles

The Effect of Tool Edge Preparation of Indexable Carbide Insert
p.342

Tool Wear Behavior in Turning Inconel 718 with Coated Inserts
p.348

Tool Wear Monitoring Based on Milling Acoustic Spectrum LPCC
p.353

Application of a Fuzzy EOQ Model to the Stock Management in the Manufacture System
p.361

Improvement on the Cutting Performance of CVD Diamond Coated Drills in Drilling CFRP
p.366

Influence of Bond Material Concentration on the Mechanical Properties of Fixed Abrasive Lapping Tool for Stainless Steel
p.372

Research on Lean Assembly
p.378

Three-Dimensional Wheel Topography Measurement with Laser Triangulation
p.384

Status and Trends of Fixed Abrasive Polishing on Semiconductor
p.390

HomeKey Engineering MaterialsKey Engineering Materials Vol. 499Three-Dimensional Wheel Topography Measurement...

Three-Dimensional Wheel Topography Measurement with Laser Triangulation

Abstract:

Laser triangulation was used to measure the topography of vitrified CBN wheels and optimum sampling interval was obtained by comparing measuring results with different sampling intervals. Four evaluation indexes including the mean protrusion height of abrasive grains Hm, the standard deviation of grain protrusion height Hv, the standard deviation of the distance between two adjacent grains Dv and the number of micro cutting edges per square millimeter Nm were put forward to assess wheel topography and grinding performance. These indexes were verified to be effective by comparing 3D topography of newly manufactured wheel and dressed wheel.