Journal of the Korea Safety Management & Science (대한안전경영과학회지)

Korea Safety Management & Science (대한안전경영과학회)
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The Lubrication Effect of Liquid Nitrogen in Cryogenic Machining [I]- Part 1: Cutting Force Component with Physical Evidences -

Liquid Nitrogend의 감찰효과 -물리적 현상에 의한 절삭력-

  • Published : 2002.06.01
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Abstract

Machinability improvement by the use of liquid nitrogen in cryogenic machining has been reported in various studies. This has been mostly attributed to the cooling effect of liquid nitrogen. However, No study has been found in discussion on whether liquid nitrogen possesses lubrication effect in cryogenic cutting. In machining tests, cryogenic machining reduced the force component in the feed direction, indicating that the chip slides on the tool rake face with lower friction. This study also found that the effectiveness of LN2 lubrication depends on the approach how LN2 is applied regarding cutting forces related.

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References

  1. Bartle, E.W., Carbon Dioxide Permits Improved Machining Time, Machinery (America), Vol. 59, 1954, p.157
  2. Delaney, R.J., Sub-Zero Machining and Quenching, Machinery (America), Vol.63, 1957, p.148
  3. Arundel, L., Fast Cutting with Carbon Dioxide Coolant, Prod. Eng. (N.Y,), Vol.32, pp.266-267, pp1961
  4. Uehara, K. and Kumagai, S., Characteristics of Tool Wear in Cryogenic Machining , J. of Japan Society of Precision Engineers, Vol.35, No.9, 1969, pp.73-77
  5. Uehara, K. and Kumagai, S., Chip Formation, Surface Roughness and Cutting Force in Cryogenic Machining, Annals of CIRP 17 (1), 1968, pp165-172
  6. Fillipi, A.D. and Ippolite, R, Facing Milling at -180OC, Annals 19 (2), 1971, pp.314-322
  7. Jainbajranglal, J.R. and Chattopadhyay, A.B, Role of Cryogenics in Metal Cutting Industry, Indian Journal of Cryogenics, Vol.0, No.1, 1984, pp.212-220
  8. Hong, Shane, Economical and Ecological Cryogenic Machining, J. of Manufacturing Sci. and Eng., Trans. of ASME, Vol.123, No.2, 2001, pp.331-338
  9. Hong, Shane and Ding, Yucheng, Micro-temperature Manipulation in Cryogenic Machining of Low Carbon Steel, Journal of Materials Processing Technology, 2001, pp. 1-9
  10. Ding, Yucheng and Hong, Shane, Improvement of Chip Breaking in Machining Low Carbon Steel by Cryogenically Precooling the Workpiece, Trans of ASME, J. of Manufacturing Science and Engineering, Vol. 120, No.1, 1998, pp.76-83
  11. Nachtman, Elliot S. and Kalparkjian, Serope, Lubricants and Lubrication in Metalworking Operations, Marcel Dekker, Inc., 1985
  12. Zhao, Zibo and Hong, Shane, Cooling Strategies for Cryogenic Machining from a Materials Viewpoint, Journal of Materials Engineering and Performance, Vol. 1, No.5, 1992, pp. 669-678
  13. Donachie, Jr., M.J., Titanium, A Technical Guide, American Society for Metals, 1982, pp163-167
  14. Boothroyd, Geoffrey and Knight, Winston A., Fundamentals of Machining and Machine Tools, Chapter 2, Marcel Dekker, Inc., New York, 1989