Multi-response optimization in wire electrical discharge machining (WEDM) of D2 steel using utility approach

IF 1.9 Q3 ENGINEERING, MANUFACTURING Manufacturing Review Pub Date : 2021-01-01 DOI:10.1051/MFREVIEW/2021014

I. Nayak, J. Rana

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引用次数: 4

Abstract

Wire electrical discharge machining (WEDM) is a popular non-conventional machining process used particularly for making extrusion dies, blanking punches, and tools especially requiring tight dimensional tolerances. Because of the process limitation, the rate of cutting and maintenance of close dimensional tolerance is a challenging task. Given the above facts, the present work has been focused on achieving the maximum possible cutting rate (VC) maintaining good dimensional accuracy and corner radius (RC). In the present research work, a multi-response optimization method (i.e. Taguchi based Utility approach) has been used to obtain an optimum set of input parameters such as pulse on time (TON), pulse off time (TOFF), servo voltage (SV), and wire feed rate (WF) resulting into a best overall cutting performance. Analysis of variance (ANOVA) is also used to find out the significant effect of each machining parameter on the cutting performance. The analysis reported in this paper will be helpful for industry personnel to select the best set of process parameters for achieving a good result without the use of any software or statistical analysis.

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基于效用法的D2钢线切割加工多响应优化

电火花线切割加工(WEDM)是一种流行的非常规加工工艺，特别是用于制造挤压模具，落料冲头和特别要求严格尺寸公差的工具。由于工艺的限制，切削速度和保持紧密的尺寸公差是一项具有挑战性的任务。鉴于上述事实，目前的工作重点是实现最大可能的切割速度(VC)，保持良好的尺寸精度和角半径(RC)。在本研究中，采用一种多响应优化方法(即基于田口的效用法)来获得一组最优的输入参数，如脉冲接通时间(TON)、脉冲关闭时间(TOFF)、伺服电压(SV)和送丝速度(WF)，从而获得最佳的整体切割性能。利用方差分析(ANOVA)找出各加工参数对切削性能的显著影响。本文所报道的分析将有助于行业人员在不使用任何软件或统计分析的情况下选择最佳的工艺参数集，以达到良好的效果。

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来源期刊

Manufacturing Review ENGINEERING, MANUFACTURING-

CiteScore

5.40

自引率

12.00%

发文量

审稿时长

8 weeks

期刊介绍： The aim of the journal is to stimulate and record an international forum for disseminating knowledge on the advances, developments and applications of manufacturing engineering, technology and applied sciences with a focus on critical reviews of developments in manufacturing and emerging trends in this field. The journal intends to establish a specific focus on reviews of developments of key core topics and on the emerging technologies concerning manufacturing engineering, technology and applied sciences, the aim of which is to provide readers with rapid and easy access to definitive and authoritative knowledge and research-backed opinions on future developments. The scope includes, but is not limited to critical reviews and outstanding original research papers on the advances, developments and applications of: Materials for advanced manufacturing (Metals, Polymers, Glass, Ceramics, Composites, Nano-materials, etc.) and recycling, Material processing methods and technology (Machining, Forming/Shaping, Casting, Powder Metallurgy, Laser technology, Joining, etc.), Additive/rapid manufacturing methods and technology, Tooling and surface-engineering technology (fabrication, coating, heat treatment, etc.), Micro-manufacturing methods and technology, Nano-manufacturing methods and technology, Advanced metrology, instrumentation, quality assurance, testing and inspection, Mechatronics for manufacturing automation, Manufacturing machinery and manufacturing systems, Process chain integration and manufacturing platforms, Sustainable manufacturing and Life-cycle analysis, Industry case studies involving applications of the state-of-the-art manufacturing methods, technology and systems. Content will include invited reviews, original research articles, and invited special topic contributions.