基于田口灰关系的EN-31立铣削工艺参数优化

Gunda Pranavkumar, Yerram Sruthikkumar, Kunchala Ramakrishna, K. R. Naik, R. Karthikeyan, A. Punitha
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摘要

一种具有优异耐磨性、抗压强度和硬度的材料被称为轴承钢,也被称为EN-31高级碳合金钢。它有多种用途,包括批量制造滚子轴承,丝锥,量具,顶销,冲压模具等。这种合金钢的表面粗糙度(Ra)最低,材料去除率(MRR)最高,以使其在一系列应用中成功使用。在实验中,采用L9田口正交设计,采用带刀片的硬质合金头刀对EN-31钢进行数控立铣削。本研究提出了一种提高工艺因素的方法,如切削速度、切削深度、进给速度和刀具角半径,从而产生理想的输出响应。Taguchi和Taguchi- grey分析用于显示降低表面粗糙度和增加MRR的最佳输入值。当切削速度为3000 rpm、进给速度为500 mm/min、切削深度为0.25 mm、刀口半径为1.00 mm时,表面粗糙度最低;而切削速度为3000 rpm、进给速度为2500 mm/min、切削深度为0.25 mm、刀口半径为1.00 mm时,材料去除率最高。
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Optimization of Process Parameters for End Milling Operation on EN-31 Using Taguchi-Grey Relation
A material with exceptional levels of abrasion resistance, compressive strength, and hardness is known as bearing steel, also known as EN-31 high-grade carbon alloy steel. It has several uses, including the bulk manufacturing of roller bearings, taps, gauges, ejector pins, swaging dies, etc. The lowest surface roughness (Ra) and highest material removal rate (MRR) are sought for this alloy steel in order for it to be used successfully in a range of applications. In the experiment, a L9 Taguchi orthogonal array design was used to CNC end mill EN-31 steel using a bullnose end mill carbide tool with inserts. This study presents a way for enhancing process factors such as cutting speed, depth of cut, feed rate, and tool corner radius that result in desirable output responses. Taguchi and Taguchi-Grey analyses are used to show the best input values that reduce surface roughness and increase MRR. The lowest level of surface roughness could be attained using the operating parameters of 3000 rpm cutting speed, 500 mm/min feed rate, 0.25 mm depth of cut, and 1.00 mm tool corner radius, while the highest level of material removal rate could be attained using 3000 rpm cutting speed, 2500 mm/min feed rate, 0.25 mm depth of cut, and 1.00 mm tool corner radius.
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