REFERENCES
- Ramesh, S.; Karunamoorthy, L.; Palanikumar, K. Surface roughness analysis in machining of titanium alloy. Materials and Manufacturing Processes 2008, 23, 175–181.
- Andriya, N.; Rao, P.V.; Ghosh, S. Dry machining of Ti-6Al-4V using PVD-coated TiAlN tools. Proceedings of WCE 2012, 3, 2–7.
- Rahman, M.; Wang, Z.G.; Wong, Y.S. A review on high-speed machining of titanium alloys. Japan Society of Mechanical Engineers International Journal 2006, 49 (1), 11–20.
- Metals Handbooks of Machining, 9th ed.; ASM International: Novelty, OH, 1989; Vol. 16, pp 844–847.
- Haan, D.M.; Batzer, S.A.; Olson, W.W.; Sutherland, J.W. An experimental study of cutting fluid effects in drilling. Journal of Materials Processing Technology 1997, 71 (2), 305–313.
- Shokrani, A.; Dhokia, V.; Munoz Escalona, P.; Newman, S.T. State of the art cryogenic machining and processing. International Journal of Computer Integrated Manufacturing 2013, 26, 7.
- Yakup Yildiz.; Muammer Nalbant. A review of cryogenic cooling in machining processes. International Journal of Machine Tools and Manufacture 2008, 48, 947–964.
- Pušavec, F.; Stoić, A.; Kopač, J. The role of cryogenics in machining processes. Tehnički Vjesnik 2009, 16 (4), 3–9.
- Hong, S.Y.; Ding, Y. Cooling approaches and cutting temperatures in cryogenic machining of Ti-6Al-4V. International Journal of Machine Tools and Manufacture 2001, 41 (10), 1417–1437.
- Bagci, E.; Ozcelik, B. Investigation of the effect of drilling conditions on the twist drill temperature during step-by-step and continuous dry drilling. Materials and Design 2006, 27 (6), 446–454.
- Zeilmann, R.P.; Weingaertner, W.L. Analysis of temperature during drilling of Ti6Al4V with minimal quantity of lubricant. Journal of Materials Processing Technology 2006, 179 (1–3), 124–127.
- Sun, S.; Brandt, M.; Dargusch, M.S. Machining Ti-6Al-4V alloy with cryogenic compressed air cooling. International Journal of Machine Tools and Manufacture 2010, 50 (11), 933–942.
- Wang, Z.Y.; Rajurkar, K.P. Cryogenic machining of hard-to-cut materials. Wear 2000, 239 (2), 168–175.
- Dhananchezian, M.; Pradeep Kumar, M. Cryogenic turning of the Ti-6Al-4V alloy with modified cutting tool inserts. Cryogenics 2011, 51 (1), 34–40.
- Dilip Jerold, B.; Pradeep Kumar, M. Experimental comparison of carbon-dioxide and liquid nitrogen cryogenic coolants in turning of AISI 1045 steel. Cryogenics 2012, 52 (10), 569–574.
- Ravi, S.; Pradeep Kumar, M. Experimental investigations on cryogenic cooling by liquid nitrogen in the end milling of hardened steel. Cryogenics 2011, 51 (9), 509–515.
- Govindaraju, N.; Shakeel Ahmed, L.; Pradeep Kumar, M. Experimental investigations on cryogenic cooling in drilling of AISI 1045 steel. Materials and Manufacturing Processes 2014, 29, 1417–1421.
- Govindaraju, N.; Shakeel Ahmed, L.; Pradeep Kumar, M. Experimental investigations on cryogenic cooling in drilling of aluminium alloy. Applied Mechanics and Materials 2014, 592–594, 316–320.
- Hong, S.Y.; Markus, I.; Jeong, W.C. New cooling approach and tool life improvement in cryogenic machining of titanium alloy Ti-6Al-4V. International Journal of Machine Tools and Manufacture 2001, 41 (15), 2245–2260.
- Ravi, S.; Kumar, M.P. Experimental investigation of cryogenic cooling in milling of AISI D3 tool steel. Materials and Manufacturing Processes 2012, 27 (10), 1017–1021.
- Zhang, P.F.; Churi, N.J.; Pei, Z.J.; Treadwell, C. Mechanical drilling processes for titanium alloys: A literature review. Machining Science and Technology 2008, 12 (4), 417–444.
- Kim, J.; Electronics, D. Development of a drilling process with torque stabilization. Journal of Manufacturing Systems 1996, 13 (6), 435–441.
- Abdel Moneim, M.E.S. Effect of drilling speed on the required torque and thrust force for non-ferrous materials. Wear 1981, 66, 65–75.
- Jayabal, S.; Natarajan, U. Optimization of thrust force, torque, and tool wear in drilling of coir fiber-reinforced composites using Nelder-Mead and genetic algorithm methods. International Journal of Advanced Manufacturing Technology 2010, 51 (1–4), 371–381.
- Taylor, P.; Safari, H.; Sharif, S.; Izman, S.; Jafari, H.; Kurniawan, D. Cutting force and surface roughness characterization in cryogenic high-speed end milling of Ti-6Al-4V ELI. Materials and Manufacturing Processes 2014, 29, 350–356.
- Manimaran, G.; Pradeep Kumar, M. Effect of cryogenic cooling and sol-gel alumina wheel on grinding performance of AISI 316 stainless steel. Archives of Civil and Mechanical Engineering 2013, 13 (3), 304–312.
- Shokrani, A.; Dhokia, V.; Newman, S.T.; Imani-Asrai, R. An initial study of the effect of using liquid nitrogen coolant on the surface roughness of Inconel 718 nickel-based alloy in CNC milling. Procedia CIRP 2012, 3 (1), 121–125.
- Bermingham, M.J.; Kirsch, J.; Sun, S.; Palanisamy, S.; Dargusch, M.S. New observations on tool life, cutting forces and chip morphology in cryogenic machining Ti-6Al-4V. International Journal of Machine Tools and Manufacture 2011, 51 (6), 500–511.
- Khan, A.A.; Ahmed, M.I.; Improving tool life using cryogenic cooling. Journal of Materials Processing Technology 2008, 196 (1–3), 149–154.
- Kaynak, Y.; Karaca, H.E.; Noebe, R.D.; Jawahir, I.S. Tool-wear analysis in cryogenic machining of NiTi shape memory alloys: A comparison of tool-wear performance with dry and MQL machining. Wear 2013, 306 (1–2), 51–63.
- Dhar, N.R.; Paul, S.; Chattopadhyay, A.B. Machining of AISI 4140 steel under cryogenic cooling—Tool wear, surface roughness and dimensional deviation. Journal of Materials Processing Technology 2002, 123 (3), 483–489.
- Venkatesh, V.C.; Xue, W. A study of the built-up edge in drilling with indexable coated carbide inserts. Journal of Materials Processing Technology 1996, 58, 379–384.