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Machining Science and Technology
An International Journal
Volume 2, 1998 - Issue 1
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Original Articles

TOOL PERFORMANCE AND CHIP CONTROL WHEN MACHINING Ti6A14V AND INCONEL 901 USING HIGH PRESSURE COOLANT SUPPLY

A. R. Machado DEEME, Universidade Federal de Uberlândia, UberlSndia, MG, 38.400-089, Brazil
,
J. Wallbank Engineering Department, University of Warwick, Coventry, CV4 7AL, United Kindgom
,
I. R. Pashby Engineering Department, University of Warwick, Coventry, CV4 7AL, United Kindgom
&
E. O. Ezugwu School of Engineering Systems and Design, South Bank University, Southwark Campus, London, SE1 OAA, United Kingdom
Pages 1-12 | Received 05 Jun 1997, Accepted 06 Jan 1998, Published online: 23 Apr 2007

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K. Nagendra Prasad & Syed Ismail. (2023) Development of Protruded Textured HSS Cutting Tool and Study of Its Impact on Cutting Performance during Dry Turning of Al 6063 Alloy. Australian Journal of Mechanical Engineering 21:4, pages 1431-1439.
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Chua Guang Yuan, A. Pramanik, A. K. Basak, C. Prakash & S. Shankar. (2021) Drilling of titanium alloy (Ti6Al4V) – a review. Machining Science and Technology 25:4, pages 637-702.
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Kore Mahesh, Jibin T Philip, S N Joshi & Basil Kuriachen. (2021) Machinability of Inconel 718: A critical review on the impact of cutting temperatures. Materials and Manufacturing Processes 36:7, pages 753-791.
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K. Venkatesan & R. Ramanujam. (2016) Improvement of Machinability using Laser-Aided Hybrid Machining for Inconel 718 Alloy. Materials and Manufacturing Processes 31:14, pages 1825-1835.
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Alokesh Pramanik & Guy Littlefair. (2015) Machining of Titanium Alloy (Ti-6Al-4V)—Theory to Application. Machining Science and Technology 19:1, pages 1-49.
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Tarek Braham-Bouchnak, Guénaël Germain, Anne Morel & Benoit Furet. (2015) Influence of High-Pressure Coolant Assistance on the Machinability of the Titanium Alloy Ti555–3. Machining Science and Technology 19:1, pages 134-151.
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A. K. Nandy & S. Paul. (2008) EFFECT OF COOLANT PRESSURE, NOZZLE DIAMETER, IMPINGEMENT ANGLE AND SPOT DISTANCE IN HIGH PRESSURE COOLING WITH NEAT OIL IN TURNING Ti-6AL-4V. Machining Science and Technology 12:4, pages 445-473.
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A. R. C. Sharman, J. I. Hughes & K. Ridgway. (2004) Workpiece Surface Integrity and Tool Life Issues When Turning Inconel 718™ Nickel Based Superalloy. Machining Science and Technology 8:3, pages 399-414.
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K. M. Medicus, M. A. Davies, B. S. Dutterer, C. J. Evans & R. S. Fielder. (2001) TOOL WEAR AND SURFACE FINISH IN HIGH SPEED MILLING OF ALUMINUM BRONZE. Machining Science and Technology 5:2, pages 255-268.
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Articles from other publishers (62)

Jakub Matuszak, Kazimierz Zaleski & Andrzej Zyśko. (2023) Investigation of the Impact of High-Speed Machining in the Milling Process of Titanium Alloy on Tool Wear, Surface Layer Properties, and Fatigue Life of the Machined Object. Materials 16:15, pages 5361.
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Navneet Khanna, Jay Airao, G. Kshitij, Chandrakant K. Nirala & Hussien Hegab. (2023) Sustainability analysis of new hybrid cooling/lubrication strategies during machining Ti6Al4V and Inconel 718 alloys. Sustainable Materials and Technologies 36, pages e00606.
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Mst Nazma Sultana & Nikhil Ranjan Dhar. (2023) Performance evaluation of high-pressure cooling by using external rotary liquid applicator in milling Ti–6Al–4V alloy. Heliyon 9:7, pages e17671.
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Rohit Singh, Varun Sharma & Pulak M. Pandey. (2023) Microstructural characteristics and mechanical behaviour of microwave-assisted sintered novel WC-Co ceramic based internally cooled turning tool. Materials Characterization 200, pages 112855.
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Shiqi Chen, Pei Yan, Junyi Zhu, Yubin Wang, Wenxiang Zhao, Li Jiao & Xibin Wang. (2023) Effect of Cutting Fluid on Machined Surface Integrity and Corrosion Property of Nickel Based Superalloy. Materials 16:2, pages 843.
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Haohao Zeng & Dong Yang. (2022) An investigation of notch wear on the bull-nose tool during laser-assisted milling AerMet100 steel. Optics & Laser Technology 156, pages 108487.
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Petr Masek, Jan Maly, Pavel Zeman, Petr Heinrich & Nageswaran Tamil Alagan. (2022) Turning of titanium alloy with PCD tool and high-pressure cooling. Journal of Manufacturing Processes 84, pages 871-885.
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Danil Yu Pimenov, Mozammel Mia, Munish K. Gupta, Álisson R. Machado, Giuseppe Pintaude, Deepak Rajendra Unune, Navneet Khanna, Aqib Mashood Khan, Ítalo Tomaz, Szymon Wojciechowski & Mustafa Kuntoğlu. (2022) Resource saving by optimization and machining environments for sustainable manufacturing: A review and future prospects. Renewable and Sustainable Energy Reviews 166, pages 112660.
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Shanta Saha, Prianka B. Zaman, Md. Imran Hasan Tusar & Nikhil R. Dhar. (2022) Multi-objective genetic algorithm (MOGA) based optimization of high-pressure coolant assisted hard turning of 42CrMo4 steel. International Journal on Interactive Design and Manufacturing (IJIDeM) 16:3, pages 1253-1272.
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Ajit Kumar Dhal, Amlana Panda, Ramanuj Kumar & Ashok Kumar Sahoo. (2021) Different machining environments impact analysis for Ti-6Al-4V alloy (Grade 5) turning process: A scoping review. Materials Today: Proceedings 44, pages 2342-2347.
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V. Wagner, M. Harzallah, M. Baili, G. Dessein & D. Lallement. (2020) Experimental and numerical investigations of the heating influence on the Ti5553 titanium alloy machinability. Journal of Manufacturing Processes 58, pages 606-614.
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H. S. Sunil Kumar, R. B. Anand & D. L. Prabhakara. (2019) Numerical Investigation on Vibration and Stability of Cutting Fluid Delivery Viscoelastic Conduits. Arabian Journal for Science and Engineering 44:6, pages 5765-5778.
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Y. Seid Ahmed, J. M. Paiva & S. C. Veldhuis. (2019) Characterization and prediction of chip formation dynamics in machining austenitic stainless steel through supply of a high-pressure coolant. The International Journal of Advanced Manufacturing Technology 102:5-8, pages 1671-1688.
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Haiyue Yu, Yushan Lyu & Jun Wang. (2019) Experimental Investigation on Grinding Temperature of Ti–6Al–4 V Using Biomimetic Engineered Grinding Wheel. International Journal of Precision Engineering and Manufacturing-Green Technology 6:2, pages 163-173.
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Y. Ayed & G. Germain. (2018) High-pressure water-jet-assisted machining of Ti555-3 titanium alloy: investigation of tool wear mechanisms. The International Journal of Advanced Manufacturing Technology 96:1-4, pages 845-856.
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Md Awal Khan, Mozammel Mia & Nikhil Ranjan Dhar. (2016) High-pressure coolant on flank and rake surfaces of tool in turning of Ti-6Al-4V: investigations on forces, temperature, and chips. The International Journal of Advanced Manufacturing Technology 90:5-8, pages 1977-1991.
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Balaji Srinivasan, M S Ramachandra Rao & Balkrishna C Rao. (2017) On the development of a dual-layered diamond-coated tool for the effective machining of titanium Ti-6Al-4V alloy. Journal of Physics D: Applied Physics 50:1, pages 015302.
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Dongsheng Lv, Jiuhua Xu, Wenfeng Ding, Yucan Fu, Changyong Yang & Honghua Su. (2016) Tool wear in milling Ti40 burn-resistant titanium alloy using pneumatic mist jet impinging cooling. Journal of Materials Processing Technology 229, pages 641-650.
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