Study on grinding force distribution on cup type electroplated diamond wheel in face grinding of cemented carbide

Takanori Fujiwara; Shinya Tsukamoto; Kazuhito Ohashi; Takashi Onishi

doi:10.4028/www.scientific.net/AMR.1017.9

Study on grinding force distribution on cup type electroplated diamond wheel in face grinding of cemented carbide

Takanori Fujiwara, Shinya Tsukamoto, Kazuhito Ohashi, Takashi Onishi

School of Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

3 Citations (Scopus)

Abstract

In order to establish a high performance grinding method of cemented carbide, the grinding force distribution on the working surface of the cup type electroplated diamond grinding wheel is experimentally analyzed with the grinding force variation of face grinding, which is carried out on the narrow workpiece. The grinding force distribution is obtained by the successive difference of the grinding force variation. The grinding state becomes steady as soon as beginning of the interference of grinding wheel in workpiece, because the edge profile of workpiece is formed as same as the envelope of the grinding wheel. Main conclusions obtained in this study are as follows. In the region of the front edge of the grinding wheel, relatively large grinding force occurs, then in the region of the rear edge of the grinding wheel, the grinding force becomes smaller. In the left right-side end of the wheel, the grinding forces are larger than the center of the wheel. It is made clear that the grinding force distribution shows the peak value near the outer part of the wheel, and the peak value is larger in the center part of the wheel, on the contrary, the peak width become broad in both the left and right-side end of the wheel.

Original language	English
Title of host publication	Advances in Abrasive Technology XVII
Editors	Jiwang Yan, Hideki Aoyama, Akinori Yui
Publisher	Trans Tech Publications Ltd
Pages	9-14
Number of pages	6
ISBN (Electronic)	9783038352211
DOIs	https://doi.org/10.4028/www.scientific.net/AMR.1017.9
Publication status	Published - 2014
Event	17th International Symposium on Advances in Abrasive Technology, ISAAT 2014 - Kailua, United States Duration: Sept 22 2014 → Sept 25 2014

Publication series

Name	Advanced Materials Research
Volume	1017
ISSN (Print)	1022-6680
ISSN (Electronic)	1662-8985

Other

Other	17th International Symposium on Advances in Abrasive Technology, ISAAT 2014
Country/Territory	United States
City	Kailua
Period	9/22/14 → 9/25/14

Keywords

Cemented carbide
Cup type electroplated diamond grinding wheel
Face grinding
Grinding force
Grinding force distribution

ASJC Scopus subject areas

Engineering(all)

Access to Document

10.4028/www.scientific.net/AMR.1017.9

Cite this

Fujiwara, T., Tsukamoto, S., Ohashi, K., & Onishi, T. (2014). Study on grinding force distribution on cup type electroplated diamond wheel in face grinding of cemented carbide. In J. Yan, H. Aoyama, & A. Yui (Eds.), Advances in Abrasive Technology XVII (pp. 9-14). (Advanced Materials Research; Vol. 1017). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/AMR.1017.9

Study on grinding force distribution on cup type electroplated diamond wheel in face grinding of cemented carbide. / Fujiwara, Takanori; Tsukamoto, Shinya; Ohashi, Kazuhito et al.
Advances in Abrasive Technology XVII. ed. / Jiwang Yan; Hideki Aoyama; Akinori Yui. Trans Tech Publications Ltd, 2014. p. 9-14 (Advanced Materials Research; Vol. 1017).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Fujiwara, T, Tsukamoto, S, Ohashi, K & Onishi, T 2014, Study on grinding force distribution on cup type electroplated diamond wheel in face grinding of cemented carbide. in J Yan, H Aoyama & A Yui (eds), Advances in Abrasive Technology XVII. Advanced Materials Research, vol. 1017, Trans Tech Publications Ltd, pp. 9-14, 17th International Symposium on Advances in Abrasive Technology, ISAAT 2014, Kailua, United States, 9/22/14. https://doi.org/10.4028/www.scientific.net/AMR.1017.9

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abstract = "In order to establish a high performance grinding method of cemented carbide, the grinding force distribution on the working surface of the cup type electroplated diamond grinding wheel is experimentally analyzed with the grinding force variation of face grinding, which is carried out on the narrow workpiece. The grinding force distribution is obtained by the successive difference of the grinding force variation. The grinding state becomes steady as soon as beginning of the interference of grinding wheel in workpiece, because the edge profile of workpiece is formed as same as the envelope of the grinding wheel. Main conclusions obtained in this study are as follows. In the region of the front edge of the grinding wheel, relatively large grinding force occurs, then in the region of the rear edge of the grinding wheel, the grinding force becomes smaller. In the left right-side end of the wheel, the grinding forces are larger than the center of the wheel. It is made clear that the grinding force distribution shows the peak value near the outer part of the wheel, and the peak value is larger in the center part of the wheel, on the contrary, the peak width become broad in both the left and right-side end of the wheel.",

keywords = "Cemented carbide, Cup type electroplated diamond grinding wheel, Face grinding, Grinding force, Grinding force distribution",

author = "Takanori Fujiwara and Shinya Tsukamoto and Kazuhito Ohashi and Takashi Onishi",

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N2 - In order to establish a high performance grinding method of cemented carbide, the grinding force distribution on the working surface of the cup type electroplated diamond grinding wheel is experimentally analyzed with the grinding force variation of face grinding, which is carried out on the narrow workpiece. The grinding force distribution is obtained by the successive difference of the grinding force variation. The grinding state becomes steady as soon as beginning of the interference of grinding wheel in workpiece, because the edge profile of workpiece is formed as same as the envelope of the grinding wheel. Main conclusions obtained in this study are as follows. In the region of the front edge of the grinding wheel, relatively large grinding force occurs, then in the region of the rear edge of the grinding wheel, the grinding force becomes smaller. In the left right-side end of the wheel, the grinding forces are larger than the center of the wheel. It is made clear that the grinding force distribution shows the peak value near the outer part of the wheel, and the peak value is larger in the center part of the wheel, on the contrary, the peak width become broad in both the left and right-side end of the wheel.

AB - In order to establish a high performance grinding method of cemented carbide, the grinding force distribution on the working surface of the cup type electroplated diamond grinding wheel is experimentally analyzed with the grinding force variation of face grinding, which is carried out on the narrow workpiece. The grinding force distribution is obtained by the successive difference of the grinding force variation. The grinding state becomes steady as soon as beginning of the interference of grinding wheel in workpiece, because the edge profile of workpiece is formed as same as the envelope of the grinding wheel. Main conclusions obtained in this study are as follows. In the region of the front edge of the grinding wheel, relatively large grinding force occurs, then in the region of the rear edge of the grinding wheel, the grinding force becomes smaller. In the left right-side end of the wheel, the grinding forces are larger than the center of the wheel. It is made clear that the grinding force distribution shows the peak value near the outer part of the wheel, and the peak value is larger in the center part of the wheel, on the contrary, the peak width become broad in both the left and right-side end of the wheel.

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KW - Cup type electroplated diamond grinding wheel

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KW - Grinding force

KW - Grinding force distribution

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Study on grinding force distribution on cup type electroplated diamond wheel in face grinding of cemented carbide

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