T-Dress, A Novel Approach in Dressing and Structuring of Grinding Wheels-Reference-Cited by-同舟云学术

T-Dress, A Novel Approach in Dressing and Structuring of Grinding Wheels

Published:2012-09 Issue: Volume:565 Page:217-221
ISSN:1662-8985
Container-title:Advanced Materials Research
language:
Short-container-title:AMR

Author:

Tawakoli Taghi¹,Daneshi Amir¹

Affiliation:

1. Furtwangen University

Abstract

Since the grinding wheel topography directly influences the grinding forces and material removal mechanism, the dressing of grinding wheels has a decisive role in the desired product quality achievement. A new dressing concept is introduced in this paper in order to reach the optimum chip formation condition. The novel dresser, T-Dress, creates a new structure on the grinding wheel owing to which remarkable reduction in grinding forces occur. These lead to the lower heat generation in the wheel-workpiece contact zone and consequently lower thermal damages. The experiments prove about 40% lower grinding forces in grinding of bearing steel materials, 100Cr6, when dressing with T-Dress compared to the case of dressing with conventional profile rollers with almost no difference in the ground surface roughness values.

Publisher

Trans Tech Publications, Ltd.

Subject

General Engineering

Link

https://www.scientific.net/AMR.565.217.pdf

Reference6 articles.

1. Tawakoli, T.; Westkämper, E.; Rabiey, M, 2007, Dry grinding by special conditioning, International Journal of Advanced Manufacturing Technology, 33: 419-424.

2. Tawakoli, T. ; Rabiey, M., 2008, An innovative concept and its effects on wheel surface topography in dry grinding by resin and vitrified bond CBN wheel, Machining Science and Technology, 12/4: 514 – 528.

3. Tawakoli, T. ; Lee, D.H.; Rasifard, A.: Trockenbearbeitung beim Rundschleifen, Vortragsband zum 8. Seminar Moderne Schleiftechnologie und Feinstbearbeitung, Stuttgart, Vulkan-Verlag, 11. 05. 2010, pp. 4c1/13.

4. Rabiey, M., 2010, Dry Grinding with CBN Wheels, The Effect of Structuring, Dissertation.

5. Marinescu, I.D.; Hitchinger, M.; Uhlmann, E.; Rowe, W.B.; Inasak, I.: Handbook of machining with grinding wheels, CRC Press, (2007).

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