基于遗传算法的镍合金电火花加工工艺参数优化

Madderla Sandhya, D. Ramasamy, Irshad ahamad Khilji, Anil Kumar, S. Chandramouli, G. Vinod Kumar
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引用次数: 2

摘要

本项目旨在通过对“Nimonic”材料进行有限数量的实验,利用田口法研究和预测每个电火花加工参数的最佳选择。这些参数对MRR和TWR等加工特性有显著影响。采用田口试验设计(DOE),选择L9正交阵列,并利用方差分析对主要工艺参数的影响进行评价。Nimonic是指一类镍基高温低蠕变高温合金。由于能够承受非常高的温度,Nimonic是典型应用的理想选择,例如飞机部件,燃气轮机部件和叶片,排气喷嘴等,例如,在压力和热量极端的地方。然而,传统的加工方法不适合加工镍镍高温合金等最硬材料。将目前流行的非常规加工方法之一电火花加工应用于铜电极机床,并利用田口方法分析各参数对加工特性的影响。利用田口法和遗传算法确定了电火花加工各参数的最优选择,如峰值电流、间隙电压、占空比和脉冲导通时间。这些参数对MRR、EWR和表面粗糙度等加工特性有重要影响。
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Optimization of process parameters in machining of nimonic super-alloy on EDM using genetic algorithm
This project aims to investigate and predict the optimal choice for each EDM parameter using Taguchi Method by conducting a limited number of experiments on “Nimonic” Material. These parameters have a significant influence on the machining characteristics like MRR and TWR. Taguchi design of experiments (DOE) are implemented, particularly L9 orthogonal array is chosen and the effect of dominating process parameters is evaluated using analysis of variance. Nimonic refers to a family of Nickel-based high-temperature low creep superalloys. Due to its ability to withstand very high temperatures, Nimonic is ideal for typical applications such as aircraft parts, gas turbine components and blades, exhaust nozzles etc., for instance, where the pressure and heat are extreme. However, the conventional methods are not suitable to machine the hardest material such as Nimonic superalloy. The EDM, one of the popular unconventional machining methods, is used to the machine with a copper electrode, which in turn uses Taguchi methodology to analyze the effect of each parameter on the machining characteristics. The optimal choice for each EDM parameter such as peak current, gap voltage, duty cycle and pulse on time using the Taguchi method and Genetic Algorithm are identified. These parameters have a significant influence on machining characteristics such as MRR, EWR and surface roughness.
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