MOORA & COPRAS结合熵法在Nimonic C263干车削过程多准则决策中的应用

IF 1.9 Q3 ENGINEERING, MANUFACTURING
M. Krishna, Sathuvachari Devarajan Kumar, C. Ezilarasan, Perumalsamy Vishnu Sudarsan, Viswanathan Anandan, S. Palani, Veerasundram Jayaseelan
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引用次数: 4

摘要

本文提出了一种基于熵、MOORA和COPRAS方法的多准则综合决策方法。实验在L27田口正交阵列下进行。采用干车削法,用立方氮化硼(CBN)车削合金。选取速度、进给量和切削深度作为影响因素。每次试验均在线测量剪切力分量。每次试验结束后,测量齿面磨损量。本文的主要目的是确定合适的试验,以确保最小的力量和侧面磨损同时进行。为了降低成本和提高质量,应适当选择控制因素水平。因此,在27个实验中选择MOORA、COPRAS和Entropy的综合MCDM技术来确定最佳实验。对备选方案进行排序,并对结果进行评估。在125 m/min, 0.055 mm/rev和0.25 mm的转速下,最大限度地减小力和侧面磨损。实验结果表明,偏差较小,证实了所提出的方案更适合于获得最小的受力和侧翼磨损。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of MOORA & COPRAS integrated with entropy method for multi-criteria decision making in dry turning process of Nimonic C263
This article presents an integrated multi-criteria decision making using Entropy, MOORA and COPRAS methods for turning Nimonic C263. Experiments were performed under L27 Taguchi orthogonal array. Dry turning was performed and cubic boron nitride (CBN) was used to turn the alloy. The variables speed, feed and depth of cut were chosen as factors. For each experiment, the shear force component was measured during on line. The insert flank wear was measured after every experiment. The main objective of this paper is to identify the suitable trial to ensure minimum force and flank wear simultaneously. Because of the cost reduction and quality improvement, the controlling factors level should be selected appropriately. Hence, the integrated MCDM technique using MOORA, COPRAS and Entropy was chosen to determine the best experiment out of 27 experiments. Alternatives were ranked and the results were evaluated. The best experiment for minimization of force and flank wear is found to be 125 m/min, 0.055 mm/rev and 0.25 mm. The experimental test were observed with lesser deviation and confirmed that proposal found is more suitable to obtain minimum force and flank wear.
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来源期刊
Manufacturing Review
Manufacturing Review ENGINEERING, MANUFACTURING-
CiteScore
5.40
自引率
12.00%
发文量
20
审稿时长
8 weeks
期刊介绍: The aim of the journal is to stimulate and record an international forum for disseminating knowledge on the advances, developments and applications of manufacturing engineering, technology and applied sciences with a focus on critical reviews of developments in manufacturing and emerging trends in this field. The journal intends to establish a specific focus on reviews of developments of key core topics and on the emerging technologies concerning manufacturing engineering, technology and applied sciences, the aim of which is to provide readers with rapid and easy access to definitive and authoritative knowledge and research-backed opinions on future developments. The scope includes, but is not limited to critical reviews and outstanding original research papers on the advances, developments and applications of: Materials for advanced manufacturing (Metals, Polymers, Glass, Ceramics, Composites, Nano-materials, etc.) and recycling, Material processing methods and technology (Machining, Forming/Shaping, Casting, Powder Metallurgy, Laser technology, Joining, etc.), Additive/rapid manufacturing methods and technology, Tooling and surface-engineering technology (fabrication, coating, heat treatment, etc.), Micro-manufacturing methods and technology, Nano-manufacturing methods and technology, Advanced metrology, instrumentation, quality assurance, testing and inspection, Mechatronics for manufacturing automation, Manufacturing machinery and manufacturing systems, Process chain integration and manufacturing platforms, Sustainable manufacturing and Life-cycle analysis, Industry case studies involving applications of the state-of-the-art manufacturing methods, technology and systems. Content will include invited reviews, original research articles, and invited special topic contributions.
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