Laser Assisted Surface Engineering Processes

1. A.K. Nath, Seminar on ‘Applications of Lasers in Engineering Industries’, Mumbai, February 10, 2001, ASM Int. (India Chapter) & Indian Institute of Metals, p8–15.

   Google Scholar 

2. C.M. Cook, J.M. Haake, M.S. Zediker, M.D. Crydermann, High Power Direct Diode Laser Application and Advanced Processes, A paper presented at International Congress on Applied Lasers and Electron Optics, ICALEO 2000, Dearborn, MI, USA

   Google Scholar 

3. Friedrich Bachmann, High power kW-range diode lasers for direct material processing, XIII Int. Symp. on Gas Flow & Chemical Lasers-High Power Laser Conf., p1–9, Florence, Italy, Sept 18–22, 2000

   Google Scholar 

4. G.L. Goswami, ‘Applications of Lasers in Engineering Industries, Mumbai, February 10, 2001, ASM Int. (India Chapter) & Indian Institute of Metals, p32–55

   Google Scholar 

5. A.K. Nath & others, “Development of a high power transverse CO₂ laser for material processing”, Proc. ECLAT,’ 96, Sept 16–18, 1996, Stuttgart, Germany

   Google Scholar 

6. D.R. Hall and H.J. Baker, ‘Area scaling boosts CO₂ laser performance’, Laser Focus World, 25, 77, 1989

   CAS  Google Scholar 

7. Tim Nacey, Diode Laser Offer Welding Advantages, WJ, June, 2001, p28–30.

   Google Scholar 

8. Laser Material Processing by W. M. Stern, Springer-Verlag, New York 1991

   Google Scholar 

9. Graham Hammersley, Materials World, May, 99, 281–2.

   Google Scholar 

10. K.J. Albutt and S. Garber, JISI, 1966, 204, 1217

    CAS  Google Scholar 

11. J. Nutting, JISI, Centenary Issue, June, 1969, p872–893

    Google Scholar 

12. H.W. Paxton, Sym. on transformation and Hardenability in Steels, 3; 1967, Michigan, Climax molybdenum Co

    Google Scholar 

13. W.E. Duckworth, Met. Rev, Metals and Materials, 1968, 13(128), 145

    CAS  Google Scholar 

14. P. Chakraborty, R. Chattopadhyay. & S.S. Bhatnagar, Grain Refinement by Short Austenitising Treatment, Trans. I.I.M, Dec., 1970

    Google Scholar 

15. Pavel Blaskovic, Manufacture and rebuilding of rolling mill rolls by surfacing and laser processing, Symp. on Joining Materials for 2000 AD, Tiruchirapalli, India, 12–14 Dec., 1991, Indian Institute of Welding

    Google Scholar 

16. C.C. Tsuei, Electrical & Magnetic Properties of Rapidly Quenched Metals, p260–275, ‘Rapid Solidification Technology Source Book, Ed. R.L. Ashbrook, ASM, 1983.

    Google Scholar 

17. John C Ion, Metals & Materials, Sept, 1992, 485

    Google Scholar 

18. H.A. Davies, Physics and Chemistry of Glasses, vol 17

    Google Scholar 

19. Donald E. Polk & Bill C. Giessen, Overview of Principles and Applications, p213–247, ‘Rapid Solidification Technology Source Book, Ed. R.L. Ashbrook, ASM, 1983

    Google Scholar 

20. R. Mehrabian, ibid, p168–209.

    Google Scholar 

21. S. Kou, S.C. Hsu and R. Mehrabian, Met. Trans., 1981, 12B, 33

    CAS  Google Scholar 

22. L.A. Davies, R. Ray, C.P. Chou and R.C. O’Handley, Scripta Met., vol 10, 1976, p541.

    Google Scholar 

23. K. Hashimoto and T. Masumoto, Material Science Engineering, vol 23, 1976, p285.

    CAS  Google Scholar 

24. D.B. Snow, E.M. Breinan and B.H. Kear, Rapid Solidification Processing of Superalloys using High Power Laser, ‘Rapid Solidification Technology, Source Book’, Ed. R.L. Ashbrook ASM, 1983, p138–152

    Google Scholar 

25. D Turnbull, Rapid Solidification Technology; Source Book, ibid, p30

    Google Scholar 

26. N. Bloembergen, Laser-Solid Interaction and Laser Processing; Ed. S. D. Ferris and others, A.I.P. Conf. Proc, vol 50, pp1–10, 1979

    Google Scholar 

27. B.L. Mordike, Lasers in Engineering, 1995, vol4, pp 187–200

    CAS  Google Scholar 

28. I. Manna, J. Dutta Mazumdar, U.K. Chatterjee, and A.K. Nath “Laser Surface Engineering of copper with chromium for enhanced wear resistance”, Scripta Materiala, 35,3, 405, 1996

    CAS  Google Scholar 

29. Dilip Kumar, A.K. Grover, A.L. Pappachan, G.L. Goswami, G.B. Kale and M.K. Totlani, Lasers in Engineering, 1998, vol 7, pp103–117

    CAS  Google Scholar 

30. G.L. Goswami, D. Kumar and Others, Control of defects during laser surface alloying, Surface Engineering, 1999, vol. 15, No. 1, p.65–70.

    Article  CAS  Google Scholar 

31. M. Leiber, Adv. Mat. & Process., 1993, (10), 16

    Google Scholar 

32. Z.J. Zhang et.a l., Mater. Sci. & Eng., A209, 1996, 5

    CAS  Google Scholar 

33. A. Adamski and R. McPhenson, Int. Thermal Spraying Conf. 1986, Montreal, Canada, p555

    Google Scholar 

34. H. Bhatt, R.A. Zatoski, Herman, R.J. Coyle, Int. Thermal Spraying Conf. 1983, p21

    Google Scholar 

35. D.B. Chrisey and G.K. Hubler (ed.), Pulsed Laser Deposition of Thin Films, Wiley, New York, 1994

    Google Scholar 

36. K Kitahama & others, Appl Phys Letter, vol 49, no 11 (1986) p537

    Google Scholar 

37. M. Ouyang, Met. al., Mat. Sci.& Engg., 1996, B39, 228

    CAS  Google Scholar 

38. V.P Godbole, et.al., Mat. Sci. & Engg., 1996, B39, 153

    CAS  Google Scholar 

39. Z. Sun & T. Moisio, Proc. 3^rd Int. Conf. on Trends in Welding Science & Technology, Gatlingburg, USA, ASM Int./AWS, 1–5 June, 1992, p433–438.

    Google Scholar 

40. Paul Denney, WJ, March, 2001, p47–50

    Google Scholar 

41. N. Blundell, MW, 1998, 9, p537–538

    Google Scholar 

42. R. Chattopadhyay & P.A. Kammer, 3^rd Int. Conf. on Trends in Welding Science & Technology, ASM/AWS, 1–5 June, 1992, Gatlinburg, Tennessee, USA

    Google Scholar 

43. M. Durrand-Charre, M.C. Sahour and A.B. Vannes, Metallurgical structure of a hard facing laser deposit, RM & HM, Sept., 1986, p192–195

    Google Scholar 

44. Laser Technology, Sp. Report 814 on “CO₂ & YAG Lasers tackle tough tasks” by John A. Vaccari, American Machinist, March, 1992, p37–48

    Google Scholar 

45. P. Harris and B.L. Smith, Metal Construction, November, 1983, p661–666.

    Google Scholar 

46. S.K. Chaudhuri, J. Choi and J. Mazumder, Symp. on Joining of Materials for 2000 AD, Tiruchirapalli, India, 12–14 Dec, 1991, Indian Institute of Welding

    Google Scholar 

47. R. Chattopadhyay, High Silt Wear of Hydroturbine Runners, Int. Conf. on Wear of Materials, 1993, Part B, ASME, p1040–1044

    Google Scholar 

48. J.N. Aoh & others, Int. Trends in Welding Science & Technology, Ed. S.A. David & J.M. Vitek, Proc of Conf. held at Gatlingurg, TN, June 1–5, 1992, ASM-Int, p649–653

    Google Scholar 

49. Anatoly Khersonsky & Houston Lee, AM&P, April, 2000, p39–41

    Google Scholar 

50. Arvind Agarwal & Narendra B. Dahotre, AM&P, April, 2000, p43–45

    Google Scholar 

51. A Utsumi, J. Matsuda, M. Yonneda, M. Katsummura and T. Araki: Int. Thermal Spraying Conf. Kobe, 1995, 325–330.

    Google Scholar 

52. Tim Heston, WJ, July, 2000, p98 & 105

    Google Scholar 

53. F. Uchiyama, et.al., ITSC’92, May 28–June 5, 1992, Orlando, Florida, ASM international, p105–110

    Google Scholar 

54. A Ohmori & others, Spraying of TiN by a combined laser and low pressure plasma spray system, ITSC’92, May 28–June 5, 1992, Orlando, Florida, ASM international, p201–206

    Google Scholar 

55. Eric J. Whitney, John E. Smugeresky & David M. Keicher, Laser-Based Direct Fabrication, ASM Handbook, vol 7, Powder Metals, Technologies & Applications, 1998, p433–435.

    Google Scholar 

56. David Abbot, Materials World, June 1999, p328–330.

    Google Scholar 

Download references