Investigation of machining parameters and cooling strategies on the burr geometry in micro-milling of titanium alloy (Ti–6Al–4V)

Rehman, Gulfam Ul; Haq, Muhammad Rizwan ul; Jaffery, Syed Husain Imran; Khan, Muhammad Salman; Butt, Shahid Ikramullah

Investigation of machining parameters and cooling strategies on the burr geometry in micro-milling of titanium alloy (Ti–6Al–4V)

Rehman, Gulfam Ul and Haq, Muhammad Rizwan ul and Jaffery, Syed Husain Imran and Khan, Muhammad Salman and Butt, Shahid Ikramullah (2025) Investigation of machining parameters and cooling strategies on the burr geometry in micro-milling of titanium alloy (Ti–6Al–4V). Journal of Materials Research and Technology, 41. pp. 1353-1367. ISSN 2238-7854

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Abstract

Titanium-based alloys are indispensable in aerospace, biomedical, automotive, and marine applications due to their exceptional strength-to-weight ratio, high-temperature capability, biocompatibility, and corrosion resistance. However, micro-milling of Ti–6Al–4V is prone to burr formation, which necessitates post-processing that can damage delicate micro-features and compromise dimensional fidelity. This study systematically compares burr formation across conventional, transition, and high-speed cutting ranges under different cooling strategies and statistically quantifies how feed per tooth, cutting speed, depth of cut, and cooling govern burr width and height on the up and down-milling sides. Micro-milling experiments varied these factors; burr metrics were measured and analyzed using a variance-based contribution approach. Results show that across the three speed ranges, the transition-speed window yielded the most favorable outcomes, with minimum burr at Vc ≈ 75 m/min. Burr width was governed mainly by feed per tooth and cutting speed, both inversely related to width; their combined contribution ranged from 82 to 89 % (up-milling) and 69–92 % (down-milling). Burr height was dominated by depth of cut and feed per tooth; each directly related to height; their combined contribution ranged from 77 to 90 % (up-milling) and 74–85 % (down-milling). Under the optimized parameters, burr width decreased by 19 % (up-milling) and 9 % (down-milling), and burr height decreased by 25 % in both milling directions.

Item Type:	Article
Identification Number:	10.1016/j.jmrt.2025.12.121
Dates:	Date Event 11 December 2025 Accepted 13 December 2025 Published Online
Uncontrolled Keywords:	Micro-milling, Ti–6Al–4V, Precision machining, Cutting speed ranges, Burr formation, Cooling strategies
Subjects:	CAH10 - engineering and technology > CAH10-01 - engineering > CAH10-01-01 - engineering (non-specific)
Divisions:	Architecture, Built Environment, Computing and Engineering > Engineering
Depositing User:	Gemma Tonks
Date Deposited:	11 Feb 2026 13:50
Last Modified:	11 Feb 2026 13:50
URI:	https://www.open-access.bcu.ac.uk/id/eprint/16861