Grinding Performance of a Grain-Arranged Diamond Wheel against Industrial Pure Aluminum

Shigeki Okuyama; Takayuki Kitajima; Akinori Yui

doi:10.4028/www.scientific.net/KEM.329.33

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An Experimental Investigation of Optimal Grinding Condition for Aspheric Surface Lens Using Full Factorial Design
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Grinding Performance of a Grain-Arranged Diamond Wheel against Industrial Pure Aluminum
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 329Grinding Performance of a Grain-Arranged Diamond...

Grinding Performance of a Grain-Arranged Diamond Wheel against Industrial Pure Aluminum

Abstract:

A grain-arranged diamond wheel is developed and grinding performance of the wheel against industrial pure aluminum, one of the most hard-to-grinding materials, is investigated. The developed wheel efficiently ground pure aluminum without adhesion even when general-purpose grinding fluid, Type A3-1, was used. Moreover, wheel wear was not observed during the experiment, and grinding energy was extremely low. By using the developed wheel, a mirror surface can be easily obtained by one-pass surface grinding with very low table speed.

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Periodical:

Key Engineering Materials (Volume 329)

Pages:

33-38

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.329.33

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Online since:

January 2007

Authors:

Shigeki Okuyama, Takayuki Kitajima, Akinori Yui

Keywords:

Diamond Wheel, Grain Arrangement, Grinding Fluid, Pure Aluminium, Surface Grinding

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