INVESTIGATION OF THE EFFECT OF MAGNETIC FIELD-ASSISTED MINIMUM QUANTITY LUBRICATION (MQL) ON SURFACE ROUGHNESS AND TOOL WEAR IN TURNING OF ALUMINUM ALLOYS

Authors

  • Akhmedov D., Umaraliyev N. Tashkent State Technical universty, students, Students of the Faculty of Mechanical Engineering 67-M25

Keywords:

Minimum quantity lubrication, MQL technology, magnetic field, aluminum alloys, Al6061, surface roughness, tool wear, nanoparticles, tribology, machining process.

Abstract

This study presents a comprehensive analysis of the application of minimum quantity lubrication (MQL) technology enhanced by a magnetic field in the machining of aluminum alloys. The research compares conventional MQL with magnetic field-assisted MQL under experimental conditions to evaluate their effects on the cutting process. The results indicate that the application of a magnetic field improves the penetration capability of lubricant particles into the cutting zone, reduces friction, and decreases heat generation. Consequently, surface roughness is reduced, and the tool life is significantly extended. The findings of this study have important scientific and practical implications for modern manufacturing industries.

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References

Shaw, M. C. – Metal Cutting Principles, Oxford University Press, 2005.

Astakhov, V. P. – Tribology of Metal Cutting, Elsevier, 2006.

Dhar, N. R. – Influence of MQL on machining processes, Journal of Materials Processing Technology, 2006.

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Rahman, M. – Machining with minimal lubrication, International Journal of Machine Tools and Manufacture, 2002.

Saidkhodjaev, A. – Vegetable based lubricants in machining, TDTU Publishing, 2021.

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Published

2026-03-17

How to Cite

Akhmedov D., Umaraliyev N. (2026). INVESTIGATION OF THE EFFECT OF MAGNETIC FIELD-ASSISTED MINIMUM QUANTITY LUBRICATION (MQL) ON SURFACE ROUGHNESS AND TOOL WEAR IN TURNING OF ALUMINUM ALLOYS. Journal of Applied Science and Social Science, 16(03), 464–467. Retrieved from https://www.internationaljournal.co.in/index.php/jasass/article/view/3715

Issue

Vol. 16 No. 03 (2026): Journal of Applied Science and Social Science

Section

Articles

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