Parametric optimization of bearing steel turning process using MCDM hybrid technique

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Jay C. Gajbhiye; Anup A. Junankar; Akanksha K. Bachale; Shraddha K. Wasnik; Yashwant Hajare; Nehal Kachotiya

Parametric optimization of bearing steel turning process using MCDM hybrid technique

Authors: Jay C. Gajbhiye, Anup A. Junankar, Akanksha K. Bachale, Shraddha K. Wasnik, Yashwant Hajare, Nehal Kachotiya

Unique Paper ID: 155941
PageNo: 333-340

Keywords: Minimum quantity lubrication Multi criteria decision making Nanofluid Turning.

Abstract:
The sustainable metal cutting process mainly focuses on the appropriate utilization of cutting tool and coolant. For the sustainable process, minimum quantity lubrication system externally attached with CNC (computer numerical control) machines to direct the cutting fluid at metal cutting interface. In the view of biodegradability, Nanofluids is prepared by adding nanoparticles to vegetable oil and supplied at machining zone via minimum quantity lubrication system. The key objective of the current investigation is to study the effect of dry, flood, vegetable oil and Cu (copper) and Zn (zinc) Nanofluids cooling condition during bearing steel turning process. The multi objective parametric optimization is performed using multi criteria decision making hybrid technique. For the experimental investigation, surface roughness and machining temperature selected as response parameters. Investigation concluded that Cu and Zn Nanofluids cooling conditions noticed as the significant as compared to dry, flood and vegetable oil. For Cu Nanofluids minimum quantity lubrication cooling condition, surface roughness and machining temperature decreased effectively.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{155941,
        author = {Jay C. Gajbhiye and Anup A. Junankar and Akanksha K. Bachale and Shraddha K. Wasnik and Yashwant Hajare and Nehal Kachotiya},
        title = {Parametric optimization of bearing steel turning process using MCDM hybrid technique},
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {9},
        number = {2},
        pages = {333-340},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=155941},
        abstract = {The sustainable metal cutting process mainly focuses on the appropriate utilization of cutting tool and coolant. For the sustainable process, minimum quantity lubrication system externally attached with CNC (computer numerical control) machines to direct the cutting fluid at metal cutting interface. In the view of biodegradability, Nanofluids is prepared by adding nanoparticles to vegetable oil and supplied at machining zone via minimum quantity lubrication system. The key objective of the current investigation is to study the effect of dry, flood, vegetable oil and Cu (copper) and Zn (zinc) Nanofluids cooling condition during bearing steel turning process. The multi objective parametric optimization is performed using multi criteria decision making hybrid technique. For the experimental investigation, surface roughness and machining temperature selected as response parameters. Investigation concluded that Cu and Zn Nanofluids cooling conditions noticed as the significant as compared to dry, flood and vegetable oil. For Cu Nanofluids minimum quantity lubrication cooling condition, surface roughness and machining temperature decreased effectively.},
        keywords = {Minimum quantity lubrication,Multi criteria decision making,Nanofluid, Turning.},
        month = {},
        }

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Cite This Article

Gajbhiye, J. C., & Junankar, A. A., & Bachale, A. K., & Wasnik, S. K., & Hajare, Y., & Kachotiya, N. (). Parametric optimization of bearing steel turning process using MCDM hybrid technique. International Journal of Innovative Research in Technology (IJIRT), 9(2), 333–340.

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