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Tribology Transactions Volume 41, 1998 - Issue 2
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Original Articles

Evaluation of a Self-Propelled Rotary Tool in the Machining of Aerospace Materials

Z. M. Wang South Bank University, School of Engineering Systems and Design, London, SE1 OAA, England
,
E. O. Ezugwu South Bank University, School of Engineering Systems and Design, London, SE1 OAA, England
&
A. Gupta South Bank University, School of Engineering Systems and Design, London, SE1 OAA, England
Pages 289-295 | Published online: 25 Mar 2008

Citations (23)

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Salman Pervaiz, Amir Rashid, Ibrahim Deiab & Mihai Nicolescu. (2014) Influence of Tool Materials on Machinability of Titanium- and Nickel-Based Alloys: A Review. Materials and Manufacturing Processes 29:3, pages 219-252.
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Articles from other publishers (22)

S. Sudhagar, A. Ajay Sivaraman, R. Bibeye Jahaziel, B. Geetha Priyadarshini & V. Krishnaraj. 2023. Materials, Design and Manufacturing for Sustainable Environment. Materials, Design and Manufacturing for Sustainable Environment 329 340 .
Usama Umer, Syed Hammad Mian, Muneer Khan Mohammed, Mustufa Haider Abidi, Khaja Moiduddin & Hossam Kishawy. (2022) Self-Propelled Rotary Tools in Hard Turning: Analysis and Optimization via Finite Element Models. Materials 15:24, pages 8781.
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Waleed Ahmed, Hussien Hegab, Atef Mohany & Hossam Kishawy. (2021) Analysis and Optimization of Machining Hardened Steel AISI 4140 with Self-Propelled Rotary Tools. Materials 14:20, pages 6106.
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Pavan Kumar Srivas, Kausik Kapat, S. Krishna Chaitanya, Subhranil Koley, Bo Su & Santanu Dhara. (2021) Net shape forming of Ti6Al4V implants via green machining. Journal of Materials Research 36:19, pages 3905-3913.
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S.D. Smetanin & V.G. Shalamov. (2021) Optimization of parameters for obtaining discontinuous chips by rotary milling. Materials Today: Proceedings 38, pages 1745-1748.
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Usama Umer, Hossam Kishawy, Mustufa Haider Abidi, Syed Hammad Mian & Khaja Moiduddin. (2020) Evaluation of Self-Propelled Rotary Tool in the Machining of Hardened Steel Using Finite Element Models. Materials 13:22, pages 5092.
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Gopala Rao Thellaputta, P. S. C. Bose, C. S. P. Rao & C. S. Raju. 2019. Recent Advances in Material Sciences. Recent Advances in Material Sciences 27 36 .
S. D. Smetanin & V. G. Shalamov. 2019. Proceedings of the 4th International Conference on Industrial Engineering. Proceedings of the 4th International Conference on Industrial Engineering 537 544 .
Gopala Rao Thellaputta, C.S. Raju, P.S.C. Bose & C.S.P. Rao. (2018) Adaptive neuro fuzzy model development for prediction of cutting forces in milling with rotary tools. Materials Today: Proceedings 5:2, pages 7429-7436.
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Vijayan Krishnaraj. (2016) An Experimental and Numerical Study on Orthogonal Machining of Ti–6Al–4V Alloy. Journal for Manufacturing Science and Production 16:4, pages 209-213.
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Fei Wang, Yonghong Liu, Yanzhen Zhang, Zemin Tang, Renjie Ji & Chao Zheng. (2014) Compound machining of titanium alloy by super high speed EDM milling and arc machining. Journal of Materials Processing Technology 214:3, pages 531-538.
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Eckart Uhlmann, Felix Kaulfersch & Martin Roeder. (2014) Turning of High-performance Materials with Rotating Indexable Inserts. Procedia CIRP 14, pages 610-615.
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Felix KaulferschMartin Roeder. (2013) Cutting of Nickel-Based Superalloys with Rotating Indexable Inserts. Advanced Materials Research 769, pages 116-123.
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J.H. Balaji, V. Krishnaraj & S. Yogeswaraj. (2013) Investigation on High Speed Turning of Titanium Alloys. Procedia Engineering 64, pages 926-935.
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S. Ramesh, L. Karunamoorthy & K. Palanikumar. (2012) Measurement and analysis of surface roughness in turning of aerospace titanium alloy (gr5). Measurement 45:5, pages 1266-1276.
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Syed H. Imran Jaffery & Paul T. Mativenga. (2011) Wear mechanisms analysis for turning Ti-6Al-4V—towards the development of suitable tool coatings. The International Journal of Advanced Manufacturing Technology 58:5-8, pages 479-493.
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A. Hosokawa, T. Ueda, R. Onishi, R. Tanaka & T. Furumoto. (2010) Turning of difficult-to-machine materials with actively driven rotary tool. CIRP Annals 59:1, pages 89-92.
Crossref
E.O. Ezugwu. (2007) Improvements in the machining of aero-engine alloys using self-propelled rotary tooling technique. Journal of Materials Processing Technology 185:1-3, pages 60-71.
Crossref
Katsuhiko SEKIYA, Yasuo YAMANE & Norihiko NARUTAKI. (2004) Tool Wear under High Speed End Milling of Nickel-Base Superalloy Inconel 718. Journal of the Japan Society for Precision Engineering, Contributed Papers 70:8, pages 1086-1090.
Crossref
E.O Ezugwu, J Bonney & Y Yamane. (2003) An overview of the machinability of aeroengine alloys. Journal of Materials Processing Technology 134:2, pages 233-253.
Crossref
E O Ezugwu, K A Olajire & Z M Wang. (2005) Wear evaluation of a self-propelled rotary tool when machining titanium alloy IMI 318. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 216:6, pages 891-897.
Crossref
Shuting Lei & Wenjie Liu. (2002) High-speed machining of titanium alloys using the driven rotary tool. International Journal of Machine Tools and Manufacture 42:6, pages 653-661.
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