汽车用蒙乃尔400合金火花腐蚀加工优化

Q3 Engineering

SAE Technical Papers Pub Date : 2023-11-10 DOI:10.4271/2023-28-0140

Manikandan Natarajan, Thejasree Pasupuleti, Jothi Kiruthika, V Kumar, Palanisamy D, Vamsinath Polanki

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引用次数: 0

摘要

<div class="section abstract"><div class="htmlview段落">Monel 400是一种镍合金，广泛应用于高温器件等工程领域。由于其较好的强度和热扩散，用传统方法很难加工。为了避免传统方法的缺点，人们开发了各种先进的材料去除技术。其中之一是电火花线切割加工(WEDM)。该工艺是放电法的演变。在电火花线切割加工过程中，通常要加工形状复杂的难加工材料。在本研究中，分析了该方法在Monel 400上的性能。在分析该过程的性能时，要考虑三个独立的变量:脉冲打开、施加的电流和脉冲关闭。实验采用田口的设计方法，其中包括使用L27正交阵列。田口进行的单响应分析显示，工艺参数可以影响用户期望的输出变量。运用田口灰关联分析方法，对该工艺进行了多方面优化。勘探结果表明，所提出的方法可以提高这一过程的有效性。

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Optimization of Spark Erosion Machining of Monel 400 Alloy for Automobile Applications

Monel 400, a type of nickel alloy which is adopted in numerous engineering fields, such as high-temperature devices. Owing to its better strength and thermal diffusion, it can be difficult to machine with conventional methods. In order to avoid the disadvantages of conventional methods, various advanced material removal techniques have been developed. One of these is Wire Electro Discharge Machining (WEDM). This process is an evolution of the electrical discharge method. In the process of WEDM, difficult materials with intricate forms are usually machined. In this study, the performance of this method on Monel 400 has been analyzed. The three independent variables that are considered when it comes to analyzing the performance of this process are the pulse on, the applied current, and the pulse off. The experiments were performed using the design approach of Taguchi, which involves using an L27 orthogonal array. The single response analysis performed by Taguchi revealed that the process parameters can influence the output variables that are desired by the users. Through the use of the Taguchi-grey relational analysis method, the multiple aspects optimization of the process was performed. The results of the exploration divulged that the proposed method can improve the effectiveness of this process.

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来源期刊

SAE Technical Papers Engineering-Industrial and Manufacturing Engineering

CiteScore

1.00

自引率

0.00%

发文量

1487

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