基于热传导问题解决方案的电火花沉积金属电蚀系列

IF 0.9 Q3 Engineering
A. A. Burkov, V. K. Khe, A. Yu. Bytsura
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引用次数: 0

摘要

实验测定了 Zn、Al、Zr、Ti、V、Fe、Ni、Co、Cr、Nb、Mo、Cu 和 W 的电侵蚀情况。在利用电极的热物理常数解决电极上的热场问题的基础上,提出了一个数学模型,用于计算电火花沉积过程中放电条件下熔融金属的体积。结果表明,放电时的活性热源比侵蚀区窄一个数量级,比之前假设的热源强三个数量级。计算了每次放电时金属上的熔体量,并构建了所研究金属的相应电侵蚀电阻系列。结果表明,与文献数据相比,所建立的金属抗电蚀性理论系列与实验数据更为吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Electroerosion Series of Metals for Electric Spark Deposition Based on Solution of the Heat-Conduction Problem

Electroerosion Series of Metals for Electric Spark Deposition Based on Solution of the Heat-Conduction Problem

Electrical erosion has been experimentally determined for Zn, Al, Zr, Ti, V, Fe, Ni, Co, Cr, Nb, Mo, Cu, and W. A mixture of granules made of the above metals, taken in equal molar ratios, has been used for the first time as a nonlocalized electrode for electric spark deposition of steel 35. A mathematical model for calculating the volume of molten metals under electric discharge conditions during electric spark deposition is proposed based on solving the problem of the thermal field on electrodes using their thermophysical constants. It is shown that the active heat source upon a discharge is an order of magnitude narrower than the erosion zone and three orders of magnitude more powerful than it has been assumed previously. The melt volumes on metals per discharge are calculated and the corresponding series of the electrical erosion resistance of the metals under study is constructed. It is shown that the developed theoretical series of the electrical erosion resistance of metals is in better agreement with the experimental data as compared to the data in the liter-ature.

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来源期刊
Surface Engineering and Applied Electrochemistry
Surface Engineering and Applied Electrochemistry Engineering-Industrial and Manufacturing Engineering
CiteScore
1.60
自引率
22.20%
发文量
54
期刊介绍: Surface Engineering and Applied Electrochemistry is a journal that publishes original and review articles on theory and applications of electroerosion and electrochemical methods for the treatment of materials; physical and chemical methods for the preparation of macro-, micro-, and nanomaterials and their properties; electrical processes in engineering, chemistry, and methods for the processing of biological products and food; and application electromagnetic fields in biological systems.
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