Comprehensive review on wire electrical discharge machining: a non-traditional material removal process

IF 2 Q2 ENGINEERING, MECHANICAL Frontiers in Mechanical Engineering Pub Date : 2024-01-23 DOI:10.3389/fmech.2024.1322605
C. Sarala Rubi, Jayavelu Udaya Prakash, S. J. Juliyana, R. Čep, Sachin Salunkhe, Karel Kouril, Sharad Ramdas Gawade
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Abstract

A highly advanced thermo-electric machining technique called wire electrical discharge machining (WEDM) can effectively produce parts with varying hardness or complicated designs that have sharp edges and are very difficult to machine using standard machining procedures. This useful technology for the WEDM operation depends on the typical EDM sparking phenomena and makes use of the commonly used non-contact material removal approach. Since its inception, WEDM has developed from a simple approach for creating tools and grown to an outstanding option for creating micro-scale components having the greatest degree of dimensional precision and surface finish characteristics. The WEDM method has endured over time as an efficient and affordable machining alternative that can meet the stringent operating specifications enforced by rapid manufacturing cycles and increasing expense demands. The possibility of wire damage and bent, nevertheless, has severely hindered the process’ maximum potential and decreased the precision as well as effectiveness of the WEDM process. The article examines the wide range of investigations that have been done; from the WEDM through the EDM process’ spin-offs. It describes WEDM investigation that required variables optimization and an assessment of the many influences on machining efficiency and accuracy. Additionally, the research emphasizes adaptive monitoring and control of the process while examining the viability of multiple approaches to control for achieving the ideal machining parameters. Numerous industrial WEDM applications are described with the advancement of hybrid machining techniques. The paper’s conclusion examines these advancements and identifies potential directions for subsequent WEDM research. The investigation on WEDM of metal matrix composites (MMCs) is also reviewed; along with the impacts of various cutting variables like wire feed rate (F), voltage (V), wire tension (WT), and dielectric flow rate on cutting processes outcomes like material removal rate (MRR), kerf width (Kw) and surface roughness (SR). In the present article, future directions for WEDM research were also suggested.
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线材放电加工综合评述:一种非传统的材料去除工艺
一种非常先进的热电加工技术被称为线切割加工(WEDM),它可以有效地加工出具有不同硬度或复杂设计的零件,这些零件边缘锋利,很难使用标准加工程序进行加工。这种有用的线切割加工技术依赖于典型的电火花加工火花现象,并利用了常用的非接触材料去除方法。自问世以来,线切割机床已从一种简单的工具制造方法发展成为制造具有最高尺寸精度和表面光洁度特性的微尺度部件的最佳选择。随着时间的推移,线切割机床已成为一种高效、经济的加工替代方法,能够满足快速制造周期和日益增长的成本要求所带来的严格操作规范。然而,线材损坏和弯曲的可能性严重阻碍了该工艺的最大潜力,并降低了线切割机床工艺的精度和有效性。文章探讨了从线切割机床到电火花加工工艺衍生产品的广泛研究。文章介绍了需要优化变量的线切割机床研究,以及对加工效率和精度的诸多影响因素的评估。此外,研究还强调了对加工过程的自适应监测和控制,同时研究了实现理想加工参数的多种控制方法的可行性。随着混合加工技术的发展,本文介绍了大量工业 WEDM 应用。论文的结论部分探讨了这些进展,并确定了后续 WEDM 研究的潜在方向。文章还回顾了对金属基复合材料 (MMC) 的线切割加工研究,以及各种切削变量(如线材进给速率 (F)、电压 (V)、线材张力 (WT) 和介电流量)对材料去除率 (MRR)、切口宽度 (Kw) 和表面粗糙度 (SR) 等切削加工结果的影响。本文还提出了线切割机床研究的未来方向。
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
Frontiers in Mechanical Engineering
Frontiers in Mechanical Engineering Engineering-Industrial and Manufacturing Engineering
CiteScore
4.40
自引率
0.00%
发文量
115
审稿时长
14 weeks
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