Grinding Titanium Alloy with Brazed Monolayer CBN Wheels

Chang Yong Yang; Jiu Hua Xu; Wen Feng Ding; Sheng Ting Tong

doi:10.4028/www.scientific.net/KEM.359-360.33

Paper Titles

Effect of Si and Ti Coating on Interface Bonding between Diamond and Fe-Based Metal Bond
p.15

Nanodiamond Modified with SHP
p.19

Study on Tribological Performance of Fine-Grained Diamond Films
p.23

The Experimental Study on Wear Performance of Brazed Diamond Grits
p.28

Grinding Titanium Alloy with Brazed Monolayer CBN Wheels
p.33

High Performance Grinding Zirconia Ceramics by Brazed Monolayered Diamond Wheels
p.38

Laser Brazing of Diamond Grits with a Ni-Based Brazing Alloy
p.43

Experimental Study on Porous Metal Bonded Diamond Grinding Wheels (II) ─ Grinding Performance of Porous Wheels
p.48

Research on Interfacial Microstructure of Ti-Coated Diamond Brazed and Uncoated Diamond Brazed by High-Frequency Induction
p.53

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Grinding Titanium Alloy with Brazed Monolayer CBN Wheels

Abstract:

This paper deals with an investigation of the grindability of Titanium alloy Ti–6Al–4V with brazed monolayer CBN grinding wheels, and systematically studies the effect of process parameters on specific energy and grinding temperature. In the investigation, a groove is machined with a brazed monolayer CBN grinding wheel, and the dimension accuracy of groove has been proved to meet the design requirements. There is no microcrack in surface layer of the groove, and the depth of work-hardening is less than 40 μm, which indicates that the grinding affected zone is small. The results show that brazed monolayer CBN grinding wheels have excellent performance during grinding titanium alloy.

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Periodical:

Key Engineering Materials (Volumes 359-360)

Pages:

33-37

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.359-360.33

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Online since:

November 2007

Authors:

Chang Yong Yang, Jiu Hua Xu, Wen Feng Ding, Sheng Ting Tong

Keywords:

Brazed Monolayer CBN Wheels, Grinding, Specific Energy, TiAl

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