Brazed CBN Grinding Wheel with Ag-Base Filler Alloy

Wen Feng Ding; Jiu Hua Xu; J.B. Lu; Yu Can Fu; Bing Xiao; Hong Jun Xu

doi:10.4028/www.scientific.net/MSF.471-472.11

Paper Titles

Preface

Studies on the Performance of Diamond Thin Films with Different Tungsten Carbide Substrates
p.1

Process Technology of Aspherical Mirrors Manufacturing with Magnetorheological Finishing
p.6

Brazed CBN Grinding Wheel with Ag-Base Filler Alloy
p.11

Effects of Tool Geometrical Parameters on the Chip Formation and Cutting Force in Orthogonal Cutting
p.16

Compositional Design of Multiphase Composite Ceramic Tool Material Based on the Thermal Shock Resistance and Its Application
p.21

Modeling and Analyzing on Nonuniformity of Material Removal in Chemical Mechanical Polishing of Silicon Wafer
p.26

Development of a Cutting Database System with Prediction and Analysis Functions
p.32

Research on Multifunctional Micro Machining Equipment
p.37

HomeMaterials Science ForumMaterials Science Forum Vols. 471-472Brazed CBN Grinding Wheel with Ag-Base Filler...

Brazed CBN Grinding Wheel with Ag-Base Filler Alloy

Abstract:

In this paper, the disadvantages of the current CBN (Cubic Boron Nitride) grinding wheels were firstly introduced briefly, for indicating that it was very urgent and important to develop new kinds of grinding wheels with excellent performance to replace the conventional wheels. Then high temperature brazing experiments of monolayer CBN wheels with Ag-Cu-Ti filler alloy were carried out. The result shows that the filler alloy has good wetting capability towards CBN grits. The results of scanning electron microscope (SEM) and energy dispersion spectrometer (EDS), as well X-ray diffraction (XRD) analysis show that, just because during brazing titanium atoms in filler alloys segregated preferentially to the surface of the CBN to form Ti-nitride or Ti-boride layer by reaction between titanium atoms and nitride and boron atoms at elevated temperature, strong chemical joining was formed in the interface between CBN grits and filler alloys. Finally, the contrastive grinding experiments were performed between the monolayer brazed CBN grinding wheels and the electroplated ones. The results show that the brazed wheels have more excellent performance than the latter.