胶贴砂轮提高磨削加工效率的研究

Duc Trung Do, Xuan Thinh Hoang, D. Le
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引用次数: 0

摘要

摘要研究了提高AISI 4140钢外圆磨削加工效率的方法。采用常规砂轮和胶贴砂轮两种砂轮进行了实验。每种类型的车轮,进行了9个实验。在实验中,冷却液、主轴转速、进给速度和切削深度是变量。用于评估磨削效率的两个结果是表面粗糙度和材料去除率(MRR)。实验结果表明,胶贴式砂轮磨削的表面粗糙度比常规砂轮磨削的表面粗糙度要小。采用基于数据包络分析的排序(DEAR)方法,确定各砂轮使用情况下表面粗糙度“最小”和MRR“最大”的输入参数的最优值。发现在这种情况下输入参数的优化是相等的。还对两种砂轮进行了几次磨削实验,以检查变量的值。结果还表明,橡胶砂轮磨削过程中的表面粗糙度比常规砂轮小19.42%左右。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving the Efficiency of Grinding Process Using the Rubber-Pasted Grinding Wheel
Abstract This paper studies the efficiency improvement of AISI 4140 steel external cylindrical grinding process. Experiments were carried out with two types of grinding wheels, a conventional and the rubber-pasted grinding wheels. With each type of the wheel, nine experiments were performed. Cooling fluid, spindle speed, feed rate and depth of cut are variables in the experiments. Two outcomes used to evaluate grinding efficiency are surface roughness and material removal rate (MRR). Experimental results demonstrate that the surface roughness achieved in the grinding operation using the rubber-pasted grinding wheels is smaller than using the conventional wheel. The Data Envelopment Analysis-based Ranking (DEAR) method was applied to determine the optimal values of the input parameters for the “minimum” surface roughness and “maximum” MRR in the cases of using each grinding wheel. It is found that the optimization of the input parameters in this circumstance are equal. Several grinding experiments for examining the values of the variables were also performed for both the wheels. The results also confirm that the surface roughness in the grinding process with the rubber wheels is about 19.42% smaller than the conventional wheels.
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