Paper Title:
Groove, Chip and Force Formation in Single Grain High-Speed Grinding
  Abstract

  Info
Periodical
Key Engineering Materials (Volumes 304-305)
Edited by
Guangqi Cai, Xipeng Xu and Renke Kang
Pages
196-200
DOI
10.4028/www.scientific.net/KEM.304-305.196
Citation
B.F. Feng, G. Q. Cai, X.L. Sun, "Groove, Chip and Force Formation in Single Grain High-Speed Grinding", Key Engineering Materials, Vols. 304-305, pp. 196-200, 2006
Online since
February 2006
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Shigeki Okuyama, Takayuki Kitajima, Akinori Yui
Abstract:A grain-arranged diamond wheel is developed and grinding performance of the wheel against industrial pure aluminum, one of the most...
33
Authors: Cong Mao, Zhi Xiong Zhou, De Wang Zhou, Du Yi Gu
Abstract:In order to understand the grinding mechanism and analyze the grinding operation, it is necessary to study the contact phenomena between...
128
Authors: Yi Yi Tao, Jiu Hua Xu, Wen Feng Ding
Abstract:The machining performance of porous NiTi shape memory alloys prepared using powder metallurgical production technique has been investigated...
143
Authors: Ya Dong Gong, Jian Qiu, Yue Ming Liu, Jun Cheng
Abstract:Super high-speed point grinding is a good performance grinding with high surface quality due to its low force. To model point grinding forces...
47
Authors: Hong Xia Zhang, Wu Yi Chen, Xiu Zhuo Fu, Li Xia Huang
Chapter 2: Advanced Manufacturing Technology
Abstract:The present investigation was dedicated to elucidate grinding characteristics during surface grinding of titanium alloy(TC6) and high...
373