Laser Brazing Diamond Grinding Wheel with Ni-Base Filler Alloy

Zhi Bo Yang; Ai Ju Liu; Jiu Hua Xu

doi:10.4028/www.scientific.net/AMR.139-141.218

Paper Titles

Influence Analysis of Multifactor on LCF Damage of Single Crystal Nickel-Based Superalloy under Multiaxial Non-Proportional Loading
p.198

Experimental Research of Prestrain Effects on Mechanical Behavior of Dual Phase Steel
p.205

Research for Transverse Tension Distribution on Steel Strip in Continuous-Annealing Furnace Based on ANSYS
p.210

Reflection and Refraction of Longitudinal Displacement Wave at Interface between Two Micropolar Elastic Solid
p.214

Laser Brazing Diamond Grinding Wheel with Ni-Base Filler Alloy
p.218

Organically Modified MCM-Type Material Preparation and Its Usage in Controlled Ibuprofen Delivery
p.222

The Refinement Effect of Al-Ti-C-RE Master Alloy Prepared by Adding Ce₂O₃ on Pure Al
p.227

The Influence of Boron on Structure and Mechanical Properties of Bainite Ductile Iron in the Step Austempering in Room Temperature Machine Oil
p.235

Research on Electroplastic Drawing Technology and Equipment
p.239

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 139-141Laser Brazing Diamond Grinding Wheel with Ni-Base...

Laser Brazing Diamond Grinding Wheel with Ni-Base Filler Alloy

Abstract:

Brazing diamond wheel was carried out via laser in an argon atmosphere. The interfacial microstructures among brazed diamond, the filler alloy and matrix were analyzed by scanning electron microscopy (SEM), energy dispersion spectrometer (EDS) and X- ray diffraction (XRD). The formation mechanism of carbide layers was also discussed. Finally, grinding examination of the grinding wheel was carried through. The results show that diamond can not fall off from the wheel even at heavy duty conditions.