通过统计分析优化技术对低碳钢与SS304工艺参数的比较

Vishal Kumar, M. Hussain, R. Singh, Shashanka P. Kumar
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摘要

本文主要研究了不锈钢304和低碳钢等常用材料车削过程中工艺参数对金属去除率的影响。车削是必不可少的和强大的过程中材料的形式的切屑去除。车削过程涉及刀具几何形状、进给速度、工件转速和机床刚度等诸多工艺参数。在本工作中,对以下切削参数进行了研究:切削速度(85,150和250 rpm),进给速度(0.13,0.28和0.15,0.09 mm/秒),切削深度(0.4,0.7和1 mm)。选择工艺参数的三标签正交阵列进行金属去除率分析。选用硬质合金刃具作为正前角刀具。通过Minitab 17软件对工艺参数进行分析。正交阵列选择3*3;通过使用信噪比(S/N),在田口法的帮助下,最大限度地减少由于不受控制的参数引起的变化。在不锈钢上进行了9个实验,在低碳钢上进行了另外一组9个实验。实验结果表明,当切削速度为150转/分、进给量为0.09 mm/秒、切削深度为1 mm时,对304级不锈钢和低碳钢均有较好的切削效果。
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Comparison of Process Parameters on Mild Steel and SS304 Through Statistical Analysis of Optimization Technique
The present study concentrated on the variation of process parameters on metal removal rate (MRR) used in turning of widely used material (stainless steel 304 and Mild steel). Turning is essential and robust process of material removal in the form of chips. The Turning process involved lots of process parameters as tool geometry, feed rate, rotational speed of job and rigidity of machine tools etc. In the present work study was done on the following cutting parameters as cutting speed (85,150 and 250 rpm), feed rate (0.13, 0.28 and 0.15, 0.09 mm/sec), depth of cut (0.4, 0.7 and 1 mm). The three label orthogonal array for process parameters were selected for metal removal rate analysis. The carbide tipped cutting tool was selected as cutting tool of positive rake angle. The analysis of process parameters was done through Minitab 17 software. The orthogonal array was selected 3*3; by the use of signal to noise (S/N) ratio is to minimise the variation due to uncontrolled parameters with the help of Taguchi method. Total nine experiments were performing on stainless steel and other set of nine experiments were perform on the mild steel. The experimental results reveals that moderate cutting speed 150 rpm, 0.09 mm/sec feed rate and 1 mm depth of cut yield good results for stainless steel 304 grade and mild steel.
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