Research on the bonding properties of vitrified bonds with porous diamonds and the grinding performance of porous diamond abrasive tools

Ordinary diamond presents the disadvantages of poor self-sharpening and concentrated grinding stress when it is used as an abrasive. Moreover, this kind of diamond cannot be well wetted by the vitrified bond, resulting in a lower holding force of the binder to the abrasives (i.e., the diamond is eas...

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Bibliographic Details
Published in:Diamond and related materials 2022-03, Vol.123, p.108841, Article 108841
Main Authors: Li, Jian-wei, Fang, Wen-jun, Wan, Long, Liu, Xiao-pan, Hu, Wei-da, Cao, Dan, Han, Kai, Li, Ying-ying, Yan, Yong-gao
Format: Article
Language:English
Subjects:
Abrasive tools
Abrasives
Binders (materials)
Corrosion tests
Diamond tools
Diamonds
Grinding
Porous diamonds
Sharpening
Silicon wafers
Surface properties
Surface roughness
Vitrified bonds
Wettability
Workpieces
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Summary:Ordinary diamond presents the disadvantages of poor self-sharpening and concentrated grinding stress when it is used as an abrasive. Moreover, this kind of diamond cannot be well wetted by the vitrified bond, resulting in a lower holding force of the binder to the abrasives (i.e., the diamond is easy to detach from the binder matrix during grinding). These comprehensive factors not only reduce the surface quality of the processed workpiece, but also hinder the processing efficiency. In order to solve these problems, a new type of porous diamond with high self-sharpening properties was prepared using a thermochemical corrosion method in this study. Our results showed a great improvement in pore volume and specific surface area of the porous diamond compared with ordinary diamond abrasive particles, and the holding force and wettability of vitrified bond to the porous diamond abrasive particles were also improved. Compared with ordinary diamond abrasive tools, porous diamond abrasive tools showed a 29.6% increase in grinding efficiency, a 15.5% decreased in grinding ratio, a 27.5% reduction in workpiece surface roughness, and the scratches on the silicon wafer surface were reduced and refined. [Display omitted] •A new type of porous diamond was prepared using a thermochemical corrosion method.•XPS indicated that some SP2 C were generated on the surface of the porous diamonds after Fe/Fe2O3 corrosion.•The wettability of the vitrified bond to the porous diamonds was significantly improved.•Porous diamonds significantly improved the grinding efficiency and precision.
ISSN:0925-9635
1879-0062
DOI:10.1016/j.diamond.2022.108841