Experimental Investigation and Optimisation of Treatment Parameters in Plasma Arc Cutting of D3 Tool Steel by Response Surface Modification

Materials Processing & Manufacturing eJournal Pub Date : 2019-08-01 DOI:10.2139/ssrn.3430314

S. Venkatesan, P. Mohan, T. Ranjith Kumar, E. Artralarasan

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引用次数: 1

Abstract

Currently with the rise in competition in market and deliver the goods high accuracy is very extremely tough the non-conventional machining like PAC (plasma arc cutting) is become life line of any business. Plasma arc cutting (PAC) is wide used treatment for the cutting of various varieties of metals in many in operation operating conditions. PAC is taken into account a difficult technology compared to its main competitors: oxy-fuel and optical master cutting. Today, thanks to advances in instrumentation style and improvement in cut quality. This paper delivers the result and constant optimisationof method parameters for the treatment of plasma arc cutting (PAC) of d3 tool steel. Gas force per unit area, arc rent and speed these are the 3 parameters of this treatment. The fabric material removal rate (MRR) is take process response .for maximum MRR treatment parameters are optimised supported the RSM technique including analysis of variance. Analysis of variance (ANOVA) is perform and contribute every treatment parameters and its have an effect on the response.

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响应面改性等离子弧切割D3工具钢工艺参数的实验研究与优化

目前，随着市场竞争的加剧和产品的高精度交付是非常困难的，像PAC(等离子弧切割)这样的非常规加工已成为任何企业的生命线。等离子弧切割(PAC)被广泛应用于多种操作条件下各种金属的切割。与其主要竞争对手:氧燃料和光学主切割相比，PAC被认为是一项困难的技术。今天，由于仪器风格的进步和切割质量的提高。本文给出了d3工具钢等离子弧切割(PAC)处理的结果和方法参数的不断优化。单位面积气体力，电弧电流和速度这是该处理的3个参数。织物材料去除率(MRR)是一个过程响应，为了获得最大的MRR，支持RSM技术优化处理参数，包括方差分析。方差分析(ANOVA)是执行和贡献每个治疗参数及其对反应的影响。

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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Materials Processing & Manufacturing eJournal

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