The Paton Welding Journal, 2005, №03

2005 №03 (09)

2005 №03 (11)

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The Paton Welding Journal, 2005, #3, 41-46 pages

Problems of quality of braze welded joints and brazing filler metal development (Review)

A.N. Kornienko, A.M. Zhadkevich

E.O. Paton Electric Welding Institute of the NASU. 11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine.

Abstract
Trends in development of brazing filler metals, criteria of their selection to produce sound similar and dissimilar Joints of products for different engineering fields have been analyzed. Effect of physical properties of the brazing filler metal, specifics of solidification and other factors, which should be taken in to account in development of brazing technologies, on the Joint quality, is shown. Promising directions of research in the field of brazing of critical products are outlined.
Keywords: brazing, brazing filler metals, Joint quality, dissimilar materials, structure defects, solidification, nanomaterials

References

1. Alov, A.A., Dolgov, Yu.S., Popov, A.S. (1956) on the origin of welding and brazing processes. Svarochn. Proizvodstvo, 12, 18–25.
2. Lakedemonsky, A.V., Khryapin, V.E. (1958) Brazing and filler metals. Moscow: Metallurgizdat.
3. Kulikov, F.V., Lekhtsier, I.R. (1959) Brazing. Moscow: Gosenergoizdat.
4. Khrenov, K.K. (1970) Welding, cutting and brazing of metals. Moscow: Mashinostroenie.
5. Petrunin, I.E., Lotsmanov, S.N., Nikolaev, G.A. (1973) Brazing of metals. Moscow: Metallurgiya.
6. (1974) Reference book on welding. Ed. by K.K. Khrenov. Kiev: Naukova Dumka.
7. (1975) Reference book on brazing. Ed. by S.N. Lotsmanov et al. Moscow: Mashinostroenie.
8. Lashko, N.F., Lashko, S.V. (1977) Brazing of metals. Moscow: Mashinostroenie.
9. Khorunov, V.F. (1998) Brazing: achievements and prospects. Avtomatich. Svarka, 11, 51–53.
10. Rossoshinsky, A.A. (1981) Some prerequisites of the theory of brazed joint formation. In: New achievements in the field of brazing. Kiev: PWI.
11. Lashko, S.V., Lashko, N.F., Nagapetyan, I.G. et al. (1982) Development of brazing technology of metal items. Moscow: Metallurgiya.
12. Lashko, S.V., Lashko, N.F. (1982) Information model of development of brazing technology. In: Current methods of brazing. Kiev: PWI.
13. Berzina, A.I., Lapshov, Yu.K. (1982) Effect of brazing process conditions on reliability of brazed seams of nickel packages. In: Current methods of brazing. Kiev: PWI.
14. Berzina, A.I., Lapshov, Yu.K. (1983) Effect of phosphorus and cobalt in nickel coatings of flat packages on the quality of ultrasonic welding and solder sealing. Avtomatich. Svarka, 6, 64–66.
15. Makhnenko, V.I., Pivtorak, N.I., Grachyov, A.A. et al. (1991) Effect of design parameters on fatigue life of brazed joints of electronic components during thermal cycles. Ibid., 8, 30–34.
16. Kotelnikov, D.I. (1982) Optimisation of equipment for diffusion brazing and welding processes. In: Current methods of brazing. Kiev: PWI.
17. Belyaev, V.N. (1983) Reliability of brazed joints of tubes to tube plates. Avtomatich. Svarka, 10, 59–61.
18. Kvasnitsky, V.V. (1999) Some problems of interaction of liquid and solid phases in brazing of heat-resistant nickel alloys. Zbirnyk Nauk. Prats UDMTU, 4, 109–114.
19. Manko, G.G. (1968) Brazing and filler metals. Moscow: Mashinostroenie.
20. Khlynov, V.V., Bokser, E.L., Pastukhov, B.A. (1976) Equilibrium on the perimeter in wetting of solid surface by melts. Adgeziya Rasplavov i Pajka Materialov, 1, 39–42.
21. Nikiforov, G.D., Oparin, M.I., Fyodorov, S.A. et al. (1976) Improvement of brazeability of printed-circuit boards by surface melting of electroplated coating using the light energy of quartz halogen filament lamps. Svarochn. Proizvodstvo, 10, 42–43.
22. Krivoshej, V.V., Beltsev, A.N. (1974) Brazing and welding in manufacturing of electronics. Moscow: Energiya.
23. Kostina, L.A., Chastikov, S.M., Yudin, V.M. (1976) Brazing of niobium alloy with corundum ceramics. Svarochn. Proizvodstvo, 10, 43–44.
24. Gladkov, A.S., Podvigina, O.P., Chernov, O.V. (1967) Brazing of vacuum tube parts. Moscow: Energiya.
25. Shapiro, A.E., Gruzdov, V.V., Tomilina, I.N. (1980) Effect of iron microprecipitations on fracture mode of brass brazed seams. Avtomatich. Svarka, 5, 34–38.
26. Tylecote, R.F. (1946) The mechanical properties of copper brazed joints. Welding J., 4, 242–246.
27. Haworth, J.B., Hume-Rothery, W. (1952) The effect of four transition metals on the a/p brass type of equilibrium. Phil. Mag., 340, 613–629.
28. Grzhimalsky, L.A., Ilievsky, 1.1. (1979) Technology and equipment of brazing. Moscow: Mashinostroenie.
29. Khorunov, V.F., Dykhno, I.S., Kuchuk-Yatsenko, V.S. et al. (1981) Joints of sheet composite materials of differently directed reinforcement with aluminium matrix. Avtomatich. Svarka, 6, 62–64, 69.
30. Kvasnitsky, V.F., Ermolaev, G.V., Myalnitsa, G.F. (1987) Development of heat-resistant brazing filler metals designed for service in sulfide corrosion conditions. Ibid., 5, 66–69.
31. Frumin, E.I., Bazilsky, S.V., Beletsky, V.A. (1988) Choice of filler metal and technology of brazing of thermoslabs. Ibid., 1, 71–72.
32. Berzina, A.I., Martsenyuk, P.K., Lapshov, Yu.K. et al. (1983) Effect of nickel coating thickness of flat packages on quality of welded and brazed Joints. Ibid., 2, 66–67, 71.
33. Dudko, D.A., Khorunov, V.F., Malevsky, Yu.B. et al. (1980) Quality of solder powders made by different methods. Ibid., 9, 60–61.
34. Radzievsky, V.N., Gartsunov, Yu.F., Tkachenko, G.G. (1997) Effect of dispersion of iron powder filler material by copper brazing filler metal on properties of braze seam. Ibid., 8, 18–22.
35. (1977) Adhesion of melts and brazing of materials. Ed. by Yu.V. NaJdich. Kiev: Naukova Dumka.
36. Lashko, S.V., Rossoshinsky, A.A., Bondarchuk, O.P. et al. (1980) Effect of storage period of powder-like brazing filler metal PMFS6-0.15 on strength of brazed Joints. Avtomatich. Svarka, 2, 73–74.
37. Berzina, A.I., Dorofeeva, E.N., Polyakova, V.M. (1987) Assembly and solder sealing of nickel packages. Ibid., 6, 46–48.
38. Zhadkevich, A.M. (2004) Development of brazing procedure, classification and definition of brazing processes. Zbirnyk Nauk. Prats NUK, 6, 33–42.
39. Beal, R.E., Saperstein, Z.P. (1971) Development of brazing filler metals for zircalloy. Welding J., 7, 275–291.
40. Dolgov, Yu.S., Nikiforova, Z.V. (1980) Brazing of new structural materials. Moscow: Mashinostroenie.
41. Chularis, A.A., MikhaJlova, M.M., Derbaremdiker, L.A. (1991) Study of formation process of zirconium and titanium alloy Joint in vacuum brazing. Avtomatich. Svarka, 11, 29–32.
42. Sevryukov, O.N., Fedotov, V.T., Yajkin, A.P. (2000) New amorphous filler metals for brazing of titanium and its alloys. In: Proc. of Mathem. Int. Sci.-Techn. Conf. on Brazing–2000. Toliatti: TPI.
43. Skopenko, A.I., Makhnenko, V.I., Pivtorak, N.I. (1974) Elastic-plastic deformations in multilayer brazed Joints of semiconductor devices during heat cycles. Avtomatich. Svarka, 3, 33–36.
44. Ermolaev, G.V., Labartkava, A.V. (1990) Computer application for solving the problems of brazed component mechanics. Zbirnyk Nauk. Prats UDMTU, 6, 55–64.
45. Moskalenko, S.A., Kostyuk, B.D., Najdich, Yu.V. (2002) Brazed Joint of ceramic disk (silicon nitride) with metallic shaft. Adgeziya Rasplavov i Pajka Materialov, 35, 103–105.
46. Volk, G.P., Konovalenko, T.V., MikhaJlov, A.A. et al. (2002) Experience of group brazing of hard-alloy tools in vacuum furnaces. Ibid., 35, 127–128.
47. Krivusha, L.S., Sukhomlin, M.M., Vorobiov, G.M. et al. (1987) Powder heat-resistant filler metals for manufacturing brazed components for power plants. Avtomatich. Svarka, 5, 65–66.
48. Lugsheider, E., Janssen, H., Humms, H. (2003) Nickel-base brazing solders potential and challenges. Welding and Cutting, 4, 189–191.
49. Khorunov, V.F., Vladimirskaya, I.A., Dykhno, M.M. Filler metal for brazing of stainless steels and nickel alloys. USSR author’s cert. 1244861. Appl. 27.02.85. Not publ.
50. Khorunov, V.F., Kuzhel, A.V., Suprun, O.D. (1985) Technology of manufacturing and serviceability of brazed lamellar heat exchangers. In: Abstr. of 2nd All-Union Conf. on Problems of Technology of Welding of Thermally Stable and Heat-Resistant High-Alloy Steels and Alloys, Nikolaev. Sept. 24–26, 1985. Kiev: PWI.
51. Khorunov, V.F., Vladimirskaya, I.A. (1985) New powder brazing filler metal on nickel-manganese base. Ibid.
52. Khorunov, V.F., Maksymova, S.V., Zvolinskyi, I.V. et al. (2000) Arc brazing of heat resistant nickel alloys. In: Proc. of Int. Brazing and Soldering Conf. on Advanced Brazing and Soldering Technologies, Albuquerque, April 2–5, 2000. AWS: ASM Int.
53. (2000) The use of Ni-base brazing filler metals containing Zr and Hf widens capability of superalloys brazing. Ibid.
54. Khorunov, V.F. (1986) Some problems of erosion of metal brazed by liquid filler metal. In: Transact. on Advanced Methods in Brazing. Kiew: PWI.
55. Khorunov, V.F., Shvets, V.I., Lapchinsky, V.F. et al. Filler metal for brazing of nickel. Author’s cert. 1606295. Int. Cl. 4 B 23 K 35/26. Publ. 15.11.90.
56. Rokhde, Kh., Katik, I., Paschold, R. (2000) Gas-shielded pulsed-arc brazing of ESAB sheets with protective coating. Svetsaren, 3, 21–24.
57. Khorunov, V.F., Lapchinsky, V.F., Shvets, V.I. et al. (1992) Technology of vacuum brazing of components of aluminium alloy truss structures. Avtomatich. Svarka, 2, 52–53.
58. Buerbal, E. (2002) Loeter-Treffen unter Ausschluss der Oeffentlichkeit. Sonne Wind und Waerme, 6, 60–61.
59. Batalin, G.I., Berzina, A.I., Papizhenko, V.V. et al. (1982) Electron probe analyses of package brazed Joints. Avto- matich. Svarka, 4, 38–43.
60. Kiselyov, O.S., Gruzdev, B.L., Dumansky, V.G. et al. (1982) Strength of brazed Joint of KhN60VT alloy. Ibid., 5, 58–59, 63.
61. Mamedova, T.T., Plyushchev, A.N. (2002) Study of the possibility to use the rapidly quenched spacer grids. In: Transact. of Sci. Session MIFI-2002. Vol. 9: Molecular selective and nonlinear phenomena and processes. Superdispersed (nano-) materials. Moscow: MIFI.
62. Gruenwald, W., Urban, E. Lote und Verfahren zu ihrer Herstellung. Pat. 10056732 O Germany. Int. Cl. B 23 K 35/24. Publ. 23.05.02.
63. Semyonov, V.N. (2000) Model of material fracture mechanism in brazing of structures. Tekhnologiya Mashinostroeniya, 5, 18–22.
64. Stafakov, Yu.P., Pobal, I.L., Knyazeva, A.G. et al. (2002) Crack growth near the interface of dissimilar materials in compression conditions. Fizich. Mezomekhanika, 1, 81–88.

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Suggested Citation

A.N. Kornienko, A.M. Zhadkevich (2005) Problems of quality of braze welded joints and brazing filler metal development (Review). The Paton Welding J., 03, 41-46.

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