| 2008 №02 (06) | 2008 №02 (08) |
The Paton Welding Journal, 2008, #2, 29-33 pages
State-of-the-art and prospects of development of laser technologies for deposition of coatings and surface hardening (Review)
V.Yu. Khaskin
E.O. Paton Electric Welding Institute of the NASU. 11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine.Abstract
Development of commercial technologies for laser hardening and coating is considered on the basis of the published data beginning from the 1980s up to now. The situation in this field in the CIS countries and Ukraine is analysed. Promising research areas in this fields are indicated.
Keywords: laser and hybrid technologies, cladding and alloying, heat treatment, commercial application, laser equipment, new materials
References
1. Diakova, Yu.G., Lunin, E.L., Stelmakh, M.F. (1981) Stateof-the-art and prospects of application of lasers in national economy. Elektron. Promyshlennost, 5/6, 3–9.2. Boyakov, V.M., Epikhin, V.M., Kalin, B.A. et al. (1978) Spraying of chemical element films using the Nd-glass laser. Kvant. Elektronika, 5(7), 1582–1589.
3. Bernadsky, V.N., Shelyagin, V.D., Makovetskaya, O.K. (2007) Present market of laser equipment for welding and processing of materials. The Paton Welding J., 10, 44–49.
4. Kovalenko, V.S., Golovko, L.F., Merkulov, G.V. et al. (1981) Hardening of parts by laser beam. Ed. by V.S. Kovalenko. Kiev: Tekhnika.
5. Andriyakhin, V.M., Zverev S.E., Chekanova, N.T. (1980) On the problem of selection of parameters for laser hardening of ZIL-130 engine block sleeves. In: Abstr. of 1st AllUnion Sci. Conf. on Sci.-Techn. Cooperation «Enterprise–Higher Education Institution» (Moscow, Dec. 9–11, 1980). Moscow: MGU.
6. Messer, K., Bergmann, H.W. (1997) Stand des Laserstrahlhartens. Mitt., 52(2), 74–82.
7. Niehoff, H.Sc., Vollertsen, F. (2005) Laser induced shock waves in hardening and forming technologies. J. Technol. Plast., 30(1/2), 37–50.
8. Mazumder, J., Singh, J. (1986) Laser surface alloying and cladding for corrosion and wear. High Temp. Mater. and Proc., 7(2/3), 101–106.
9. Abboud, J.H., West, D.R.F. (1991) Processing aspects of laser surface alloying of titanium with aluminium. Mater. Sci. and Technol., 7(4), 353–356.
10. Arkhipov, V.E., Birger, E.M., Smolonskaya, T.A. et al. (1985) Application of laser technology in repair production. Svarochn. Proizvodstvo, 1, 7–8.
11. Jian, L.N., Wang, H.M. (2005) Microstructure and wear behaviours of laser-clad Cr13Ni5Si2 -based metal-silicide coatings on a titanium alloy. Surface and Coat. Technol., 192(2/3), 305–310.
12. Frank, C. (2005) Laserstrahlschweissen von Hand mit dem Nd:YAG-Laser. Vol. 3: Notfallservice fuer Werkzeuge und Formen. Praktiker, 57(10), 293–295.
13. Pilipchuk, A.P., Devojno, O.G., Gribkov, Yu.A. et al. (2001) Examination of transition zone of coatings glazed by laser beam. In: Theoretical and technological principles of hardening and restoration of machine-building parts. Minsk: PolotskGU.
14. Kovalenko, V.S. (2001) Laser technology at a new stage of development. The Paton Welding J., 12, 3–8.
15. Bajko, I.Yu., Istomin, E.A., Pojzner, B.N. (1994) Leaders and outsiders of thirty-years marathon of gas discharge lasers. Kvant. Elektronika, 11, 1103–1104.
16. Aihua, W., Zengyi, T., Beidi, Z. (1991) Laser beam cladding of seating surfaces on exhaust valves. Welding J., 70(4), 1065–1095.
17. Backes, G. (1995) Beschichten von Kurbelzapfen mit CO2 - Laserstrahlung. Maschinenmarkt, 101(12), 42–45.
18. Khaskin, V.Yu., Velichko, O.A., Molchan, I.V. et al. (1995) Restoration of threads by laser cladding. Avtomatich. Svarka, 6, 56–58.
19. Khaskin, V.Yu., Golego, N.N., Dmitrenko, V.N. et al. (1994) Equipment and technology for laser restoration of agricultural machine engine parts. In: Proc. of Int. Sci.-Pract. Conf. on Modelling of Processes and Technological Equipment in Agriculture (Melitopol, August 17–19, 1994), 31–32.
20. Hoking, M., Vasantasri, V., Sidki, P. (2000) Metal and ceramic coatings: production, properties and applications. Moscow: Mir.
21. Minaev, V.P. (2003) Company and its leader. In: Laser-Inform: Inform. Bul. of Laser Association, April, 8(263), 1–5.
22. Shelyagin, V.D., Khaskin, V.Yu. (2002) Tendencies in investigations of combined laser-arc processes. In: Survey information of PWI, No. 1. Preprint. Kiev: PWI.
23. Som, A.I., Krivtsun, I.V. (2000) Laser + plasma: search for new possibilities in cladding. The Paton Welding J., 12, 34–39.
24. Coddet, C., Montaron, C., Marchione, T. et al. (1998) Surface preparation and thermal spray in a single step: the PROTAL process. In: Proc. of 15th Int. Thermal Spray Conf. on Meeting the Challenges of the 21st Century (Nice, France, May 25--29, 1998), Vol. 2. Nice: ASM Int., 1321–1325.
25. Bayer, E., Steinwandel, J., Hoschele, J. et al. Method for control of laser or plasma cladding process. Appl. 10337149 Germany. Int. Cl. B 23 K 26/03, B 23 K 26/34. Filed 13.08.2003. Publ. 10.03.2005.
26. Liu, R.X., Lie, T.Q., Guo, L.X. (2004) Recent developments in the field of laser cladding on titanium surfaces. Mater. Sci. and Technol., 12(5), 524–528.
27. Ma, N.H., Wang, H.W., Liang, G.Y. et al. (2004) Technology problems of laser cladding procedure for in-situ TiCp/Al composite layer on aluminium alloy. J. Shanghai Jiaotong Univ. Sci., 9(1), 15–18.
28. Mei, Z., Guo, L.F., Yue, T.M.J. (2005) The effect of laser cladding on the corrosion resistance of magnesium ZK60/SiC composite. Mater. Proc. Technol., 161(3), 462–466.
29. Li, M., He, Y., Yuan, X. (2006) Effect of nano-Y2O3 on microstructure of laser cladding cobalt-based alloy coatings. Appl. Surface Sci., 252(8), 2882–2887.
30. Zhang, D., Zhang, X. (2005) Laser cladding of stainless steel with Ni--Cr3C2 and Ni–WC for improving erosive-corrosive wear performance. Surface and Coat. Technol., 190(2/3), 212–217.
31. Storch, W., Letsch, K., Jokiel, I. et al. (2006) Handgefuehrt mit dem Laserstrahl an Turbinenbauteilenschweissen. Praktiker, 6, 170–175.
32. Lu, W., Hou, L.Q., Chen, K. et al. (2004) Microstructure and properties of coating deposited by laser cladding on cutter tip. Transact. of China Welding Inst., 25(6), 51–53.
33. Yurkevich, S.N., Tomashevich, A.V., Yurkevich, A.S. (2006) Restoration of aircraft engineering parts by laser cladding method. Remont, Vosstanovlenie i Modernizatsiya, 3, 31–32.
34. Iliushchenko, A.F., Okovity, V.A., Kundas, S.P. et al. (2002) Formation of thermal spray coatings: theory and practice. Ed. by A.F. Iliushchenko. Minsk: Bestprint.
35. Syed Waheed Ul Haq, Li Lin (2005) Effects of wire feeding direction and location in multiple layer diode laser direct metal deposition. Appl. Surface Sci., 248(1/4), 518–524.
36. (2006) System zum Laserauftragsschweissen fuer 1400 Euro im Monat leasen: Carl Baasel La GmbH & Co KG. Maschinenmarkt, 13, 56.
37. Grigoriants, A.G., Misyurov, A.I. (2005) Possibilities and prospects of laser cladding application. Tekhnologiya Mashinostroeniya, 10, 52–56.
38. Kharlamov, Yu.A., Budagiants, N.A. (2003) Principles of technology for restoration and hardening of machine parts: Manual. Vol. 2. Lugansk: Vostochno-Ukr. Nats. Univ. im. V. Dalya.
39. Georgiev, V. (2003) With an old luggage into the new age? Gudok, 13 May, 4.
40. Melyukov, V.V., Kuzmin, V.A., Chastikov, A.V. et al. (2005) Laser-plasma hardening of high-speed steel surface layers. In: Proc. of 7th Int. Pract. Conf.--Exhibition (St.- Petersburg, April 13--16, 2005), 156–164.
41. Kononenko, V.V., Konov, V.I., Pimenov, S.M. et al. (2000) CVD diamond transmissive optics for CO2 -lasers. New Diamond and Frontier Carbon Technol., 10(2), 97–107.
42. Zherikhin, A.N., Khudobenko, A.I., Villiams, R.T. et al. (2003) Laser spraying of ZnO films on silicon and sapphire substrates. Kvant. Elektronika, 11(33), 975–980.
43. Vityaz, P.A., Ivashko, V.S., Iliushchenko, A.F. et al. (1998) Theory and practice of deposition of protective coatings. Minsk: Belaruskaya Navuka.
44. Krajko, S.E. (2004) Effect of absorbing coating thickness on microhardness distribution in laser heat treatment. Mashinostroenie, Issue 20, 124–127.
45. Devojno, O.G., Kardapolova, M.A., Dorozhkin, N.N. et al. (2003) Formation of surface layer structure in repeated laser alloying. Inzh.-Fizich. J., 76(1), 98–101.
46. Devojno, O.G., Kardapolova, M.A., Dyachenko, O.V. (2003) Effect of laser treatment parameters and alloying components on physical-mechanical properties of coatings. Mashinostroenie, Issue 19, 70–75.
47. Lyubchenko, A.P., Pashkova, G.I. (2005) Effect of laser treatment and rolling on fatigue strength of high-strength cast iron. Novi Materialy i Tekhnologii v Metalurgii ta Mashynobuduvanni, 1, 90–93.
48. Kanarchuk, V.E., Chigrinets, A.D., Shaposhnikov, B.V. (1995) Laser equipment and technology for hardening and restoration of parts and apparatuses. Kyiv: Ukr. Transportn. Univ.