IJAT Vol.5 No.3 pp. 433-438
doi: 10.20965/ijat.2011.p0433


Simulation of Cylindrical Plunge Grinding Processes Considered Successive Change of Workpiece Shape

Tohru Onozaki, Akira Saito, and Masashi Yoritsune

Research & Development Center, JTEKT Corporation, 1-1 Asahi-machi, Kariya, Aichi 448-8652, Japan

February 1, 2011
April 17, 2011
May 5, 2011
abrasive process, simulation, cylindrical plunge grinding, high performance
A simulation method of cylindrical plunge grinding processes is described, which has considered successive change of workpiece shape due to core elements of grinding machine. Each element is modeled and integrated in the simulation procedure. The validity of the method is shown by comparing predicted and experimental results of grinding force histories, workpiece diameter histories and final workpiece shapes. The method is also applied to reduce grinding time by controlling infeed rate. The new process with reduced time is derived and the practicality of the method is verified by conducting experiments.
Cite this article as:
T. Onozaki, A. Saito, and M. Yoritsune, “Simulation of Cylindrical Plunge Grinding Processes Considered Successive Change of Workpiece Shape,” Int. J. Automation Technol., Vol.5 No.3, pp. 433-438, 2011.
Data files:
  1. [1] S. Ohno, “Self-Excited Vibration in Cylindrical Grinding (Part 2, Theoretical Study),” Bulletin of the JSME, Vol.13, No.58, pp. 623-630, 1970.
  2. [2] S. Shiozaki, Y. Furukawa, and T. Ogawa, “Stability Analysis of Cylindrical Grinding under the Effect of Workpiece Shape,” Bulletin of the JSME, Vol.20, No.148, pp. 1321-1328, 1977.
  3. [3] I. Inasaki, K. Tonou, and S. Yonetsu, “Regenerative Chatter in Cylindrical Plunge Grinding,” Bulletin of the JSME, Vol.20, No.150, pp. 1648-1654, 1977.
  4. [4] N. Chiu and S. Malkin, “Computer Simulation for Cylindrical Plunge Grinding,” Annals of the CIRP, Vol.42, No.1, pp. 383-387, 1993.
  5. [5] G. Xiao and S. Malkin, “On-Line Optimization for Internal Plunge Grinding,” Annals of the CIRP, Vol.45, No.1, pp. 287-292, 1996.

*This site is desgined based on HTML5 and CSS3 for modern browsers, e.g. Chrome, Firefox, Safari, Edge, Opera.

Last updated on Jun. 19, 2024