Research to determine the best value of both Z and OVC in micro-EDM using carbon coated electrode using topsis method

D. V. Pham
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Abstract

In the machining process, it is difficult to solve problems due to the relationship between productivity and quality, for example, as the productivity increases, the quality of reprocessing may decrease. Some methods only address specific objectives, such as the quality of the machining method, the machining productivity, the quality, or even the cost. Electrical discharge machining (EDM) and micro-EDM are most commonly used for processing the surfaces of die and moulds. The amount of electrode wear in micro-EDM has a direct effect on the dimensional accuracy of the machined hole. Therefore, improving the corrosion resistance of electrodes in micro-EDM is still of great interest. The effective coating of thin film for the micro tool electrodes in the case of micro – EDM can lead to minimize the electrode wear which eventually improve the productivity and machining quality. In the present study, experiments were performed on micro – EDM using carbon coated tool electrode and optimized using Taguchi-Topsis to investigate optimum levels of Depth of cut (Z) and overcut (OVC). It was concluded that optimum conditions had improved significantly using carbon coated micro tool electrode. Optimal  levels of technological parameters include V=160 V, C=10000 pF, RPM=400 rpm, and Zopt=2,525 mm, OVCopt=72,856 μmm. The quality of the machined surface with the coated electrode at optimal conditions is analyzed and evaluated. The Topsis method is a suitable solution to this problem, and the steps to perform the calculation in this technique are simple
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采用topsis法研究了碳包覆电极微细电火花加工中Z和OVC的最佳值
在机械加工过程中,由于生产率和质量的关系,很难解决问题,例如,随着生产率的提高,再加工的质量可能会下降。有些方法只针对特定的目标,如加工方法的质量、加工生产率、质量,甚至成本。电火花加工(EDM)和微细电火花加工是最常用的模具表面加工方法。微细电火花加工中电极的磨损量直接影响加工孔的尺寸精度。因此,提高微细电火花加工中电极的耐腐蚀性能仍然是一个值得关注的问题。在微细电火花加工中,有效的薄膜涂层可使电极的磨损最小化,从而提高生产率和加工质量。在本研究中,使用碳涂层工具电极进行了微电火花加工实验,并使用田口topsis进行了优化,以研究最佳切削深度(Z)和过切(OVC)水平。结果表明,碳包覆微工具电极的最佳工艺条件得到了显著改善。最佳工艺参数水平为:V= 160v, C= 10000pf, RPM= 400rpm, Zopt= 2525 mm, OVCopt= 72856 μmm。对最优条件下涂层电极的加工表面质量进行了分析和评价。Topsis方法是解决这一问题的合适方法,该方法的计算步骤非常简单
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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