W-Al-Si-C合金材料铣削过程加工性能优化分析

IF 2.4 Q2 ENGINEERING, MULTIDISCIPLINARY
Manoj Kumar, Ankit D. Oza, Kiran S. Bhole, Manoj Kumar, Manish Gupta, Sumit Das Lala
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引用次数: 0

摘要

本研究采用田口方法确定了铣削W-Al-Si-C棒的最佳高速钢刀具技术参数。本文解释了在高端计算机数控(CNC)机床中选择适当的切削设置以确保较低功耗的实证结果。在数控车床上以切削速度、进给速度和切削深度为工艺参数,采用田口方法对挤压W-Al- Si-C棒材进行了实验。性能特征(能源使用)通过数据收集系统进行量化。通过数据分析,选择了次要的能量工艺参数。实验结果证明了所选方法的价值。共350[公式:见文]rpm, 0.37[公式:见文]mm/rev进给速率,1[公式:见文]mm的切割深度产生最佳MRR结果。在较低的主轴转速和切削深度水平下,材料去除率(MRR)最大,即1.452 g/sec[公式:见文]。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization and analysis of machining performance for the milling process during milling of W-Al-Si-C alloy material
This study determined the optimum HSS cutting tool technique parameters for milling W-Al-Si-C rods using Taguchi methodology. This paper explains the empirical results of the selection of appropriate cutting settings that assure lower power consumption in high-end Computer Numerical Control (CNC) machines. An experiment employing the Taguchi methodology on an extruded W-Al- Si-C rod was performed on a CNC lathe with cutting speed, feed rate, and depth of cut as the process parameters. The performance characteristics (energy usage) were quantified by a data collection system. Minor energy process parameters were selected after data analysis. Experimental results are presented to demonstrate the worth of the chosen methodology. A total of 350[Formula: see text]rpm, 0.37[Formula: see text]mm/rev feed rate, and 1[Formula: see text]mm of cut depth produced the best MRR result. The maximum material removal rate (MRR) is obtained at lower levels of spindle speed and depth of cut, i.e., 1.452[Formula: see text]g/sec.
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