Paper Title:
Experimental Study on Relation between Tool Wear and Grinding Force for Shaping Diamond Tool
  Abstract

Based on orthogonal experiment design, a study on the one-fourth arc special-shaped surface of Lord Red granite was conducted, the relationship between cutting speed, feed rate and cutting depth with tool wear rate and grinding force were analyzed. The research shows that tool wear rate and grinding force are basically reduced with the increase of cutting speed and aggrandized with the increase of feed rate and cutting depth. By regression analysis the empirical formulas of grinding forces are concluded, it is the theoretical foundation for on-line monitoring grinding force to optimize the processing parameters for machining irregular surface of granite.

  Info
Periodical
Advanced Materials Research (Volumes 97-101)
Edited by
Zhengyi Jiang and Chunliang Zhang
Pages
1925-1928
DOI
10.4028/www.scientific.net/AMR.97-101.1925
Citation
Z. M. Zhang, J. S. Zhang, S. Gao, C. R. Lu, C. Y. Zheng, "Experimental Study on Relation between Tool Wear and Grinding Force for Shaping Diamond Tool", Advanced Materials Research, Vols. 97-101, pp. 1925-1928, 2010
Online since
March 2010
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: 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: Ilhan Asiltürk, Levent Çelik, Eyüb Canli, Gürol Önal
Abstract:Grinding is a widely used manufacturing method in state of art industry. By realizing needs of manufacturers, grinding parameters must be...
34
Authors: Bo Zhao, Chong Yang Zhao, Bao Yu Du
Abstract:In this paper, surface/subsurface damage mechanism of engineering ceramics under ultrasonic vibration assisted grinding was studied by...
107