Expert opinion based optimziation of CNC machining parameters for Al-CNT composites using fuzzy TOPSIS method

Author:

Nand Sachchida,Singh Manvandra K,Chimata Murali KrishnaORCID

Abstract

Abstract Machinability of Al-CNT composites at optimum conditions of machining parameters saves a lot of time, improves quality of machined components at minimum possible cost of machining. In conventional methods, controlled experimentation is performed. In order to obtain best machining parameters, optimization methods are applied but they are inadequate in many situations. Hence, an attempt was made in this work to collect subjective data for response parameters such as, quality, cost, and time, from selected experts in this field for various combinations of input process parameters of CNC milling machine for the case of Al-CNT composites with high-speed steel as tool material. 27 sets of experiments were devised for various combinations of machining parameters systematically by taking cutting speed (in rpm), feed, step over ratio, and depth of cut each at 3 levels. Two experts were invited for collection of data for the response parameters and three experts were involved for giving weightages for the response parameters. Fuzzy trapezoidal membership functions were made use of, for representing fuzzy set and fuzzy Technique and TOPSIS method was applied for finding the best solution. Results revealed that best solution was obtained for a spindle speed of 3000 rpm, feed of 150 mm rev−1, step-over ratio of 0.5, and depth of cut of 0.2 mm.

Publisher

IOP Publishing

Subject

General Engineering

Reference23 articles.

1. Multi-response optimization of wire EDM of Inconel 718 using a hybrid entropy weighted GRA-TOPSIS method;Abhilash;Process Integr. Optim.,2022

2. Optimizing number and locations of alternative fuel stations using a multi-criteria approach;BadriKoohi;Engineering Technology and Applied Research,2019

3. Application of soft computing techniques in machining performance prediction and optimization: a literature review;Chandrasekaran;J. Adv. Manuf. Technol.,2010

4. Online machining optimization with continuous learning;Chandrasekaran,2012

5. The interval valued fuzzy TOPSIS method and experimental analysis;Chen;Fuzzy Sets Syst.,2008

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