A comprehensive review of parametric optimization of electrical discharge machining processes using multi-criteria decision-making techniques

Pendokhare, Devendra; Kalita, Kanak; Chakraborty, Shankar; Čep, Robert

doi:10.3389/fmech.2024.1404116

Cited by 2 publications

References 156 publications

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Development of an artificial intelligence model for wire electrical discharge machining of Inconel 625 in biomedical applications

Thejasree,

Manikandan,

Sunheriya

et al. 2024

IET Collab Intel Manufact

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Superalloys, particularly nickel alloys such as Inconel 625, are increasingly used in biomedical engineering for manufacturing critical components such as implants and surgical instruments due to their exceptional mechanical properties and corrosion resistance. However, traditional machining methods often struggle with these materials due to their high strength and thermal conductivity. This study investigates the application of Wire Electrical Discharge Machining (WEDM) as an advanced method for processing Inconel 625 in biomedical contexts. The authors develop an Adaptive Neuro‐Fuzzy Inference System for forecasting WEDM parameters using grey‐based data. The model's variable inputs are analysed through analysis of variance (ANOVA) and Taguchi design, aiming to optimise process performance attributes relevant to biomedical applications. Comparative studies between predicted and experimental data demonstrate a high degree of accuracy, indicating that the proposed model effectively enhances the machining process. The results suggest that this intelligent system supports decision‐making in the production of high‐quality biomedical devices and components.

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Development of an artificial intelligence model for wire electrical discharge machining of Inconel 625 in biomedical applications

Thejasree,

Manikandan,

Sunheriya

et al. 2024

IET Collab Intel Manufact

View full text Add to dashboard Cite

show abstract

Integrating Taguchi Optimization for Multi-Criteria Decision Making in Engineering Applications

Wadhwa,

Abbass,

Akhai

et al. 2024

Advances in Computational Intelligence and Robotics

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This chapter discusses the use of Taguchi optimization, a statistical method for process optimization in engineering, to solve multi-criteria decision making (MCDM) problems. It focuses on achieving robust designs by minimizing variations and defects by identifying optimal control factors. The method uses orthogonal arrays for efficient experimentation and signal-to-noise ratios for performance measurement. It incorporates utility concepts, weighted principal component analysis, and multi-objective optimization. It has real-world applications in automotive, electronics, and chemical engineering. Taguchi's efficiency and cost-effectiveness are compared to response surface methodology and genetic algorithm optimization. It reduces experimental runs, improves product quality, and effectively handles MCDM problems. Future advancements could involve machine learning integration and broader application in emerging fields.

show abstract

A comprehensive review of parametric optimization of electrical discharge machining processes using multi-criteria decision-making techniques

Cited by 2 publications

References 156 publications

Development of an artificial intelligence model for wire electrical discharge machining of Inconel 625 in biomedical applications

Development of an artificial intelligence model for wire electrical discharge machining of Inconel 625 in biomedical applications

Integrating Taguchi Optimization for Multi-Criteria Decision Making in Engineering Applications

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