INVESTIGATING THE MECHANISM OF DIAMOND GRINDING STONE DISCHARGE IN MIST ENVIRONMENT
Keywords:
diamond grinding stones, EDM, mist environment, WZ model
Abstract
The study investigates the mechanism of electrical discharge machining in a mist environment for grinding diamond stones. The mist-assisted diamond grinding technology shows great promise, with advantages such as environmental protection and high efficiency. Additionally, utilizing a mist environment for grinding diamond stones reduces the dependence on working fluids and allows for direct grinding in highly accurate grinding machines.
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References
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技 术 及 其 最 新 进 展. [Electro-processing dressing
technology of superhard abrasive grinding wheel and
its latest developments]. 2007 年中国机械工程学
会年会论文集. [In: Proceeding of the 2007 Annual
Conference of Chinese Mechanical Engineering Society]. 2007.
[2] Ramesh BN, Radhakrishnan V. Investigations on laser
dressing of grinding wheels—part II: grinding performance of a laser dressed aluminum oxide wheel.
Journal of Engineering for Industry. 1989;111(8):
253–261. https://doi.org/10.1115/1.3188757.
[3] Chen Q, Zhang Q, Qiu Y, Wei X. SF6气体放电通道
的分形特征及计算机模拟 [Fractal characteristics of
SF6 gas discharge channels and computer simulation].
西 安 交 通 大 学 学 报. [Journal of Xi’an Jiaotong
University]. 2000;34(4): 1–4.
Published
20-July-2023
How to Cite
1.
Nguyen D, Tran V. INVESTIGATING THE MECHANISM OF DIAMOND GRINDING STONE DISCHARGE IN MIST ENVIRONMENT. journal [Internet]. 20Jul.2023 [cited 22Dec.2024];13(6). Available from: https://journal.tvu.edu.vn/tvujs_old/index.php/journal/article/view/2117
Section
Articles
