Minimizing process of surface roughness in grinding with super-soft grade resinoid wheel

Kazuhito Oohashi, Shinya Tsukamoto, Toshikatsu Nakajima

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

An improving process of surface roughness in cylindrical plunge grinding with a super-soft grade resinoid wheel is discussed, analyzing the ground surface profile, the topography of acting wheel surface and so on. Minimizing phenomenon of surface roughness, in which surface roughness decreases down to the minimum just after beginning of grinding, occurs remarkably in plunge grinding process with a super-soft grade resinoid wheel. And the phenomenon is useful for improving surface roughness by grinding. The number of simultaneously acting cutting edge is obtained by ground surface profile, topography of acting wheel surface and interference wheel arc length.

Original languageEnglish
Title of host publicationProgress of Machining Technology - Proceedings of the Seventh International Conference on Progress of Machining Technology, ICPMT'2004
EditorsW. Chen, Y. Yamane, R. Fan, A. Ochi
Pages122-127
Number of pages6
Publication statusPublished - 2004
EventProgress of Machining Technology - Proceedings of the Seventh International Conference on Progress Machining Technology, ICPMT'2004 - Suzhou, China
Duration: Dec 8 2004Dec 11 2004

Other

OtherProgress of Machining Technology - Proceedings of the Seventh International Conference on Progress Machining Technology, ICPMT'2004
CountryChina
CitySuzhou
Period12/8/0412/11/04

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Keywords

  • Ground surface profile
  • Minimizing phenomenon of surface roughness
  • Number of simultaneously acting cutting edge
  • Super-soft grade resinoid wheel
  • Surface roughness
  • Topography of acting wheel surface

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Oohashi, K., Tsukamoto, S., & Nakajima, T. (2004). Minimizing process of surface roughness in grinding with super-soft grade resinoid wheel. In W. Chen, Y. Yamane, R. Fan, & A. Ochi (Eds.), Progress of Machining Technology - Proceedings of the Seventh International Conference on Progress of Machining Technology, ICPMT'2004 (pp. 122-127)