The Paton Welding Journal, 2010, №12



2010 №12 (06)

2010 №12 (08)

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TPWJ, 2010, #12, 26-33 pages
 
RESEARCH AND DEVELOPMENTS OF THE E.O. PATON ELECTRIC WELDING INSTITUTE IN THE FIELD OF ELECTRIC ARC WELDING AND SURFACING USING FLUX-CORED WIRE (Review)


Journal                    The Paton Welding Journal
Publisher                 International Association «Welding»
ISSN                       0957-798X (print)
Issue                       № 12, 2010 (December)
Pages                      26-33
 
 
Authors
I.K. POKHODNYA, V.N. SHLEPAKOV, S.Yu. MAKSIMOV and I.A. RYABTSEV
E.O. Paton Electric Welding Institute, NASU, Kiev, Ukraine
 
 
Abstract
The results of works performed by the E.O. Paton Electric Welding Institute in the field of welding and surfacing using flux-cored wire are generalized.
 
 
Keywords: electric arc welding, surfacing, low-alloyed steels, flux-cored wire, production of flux-cored wire
 
 
Received:                ??.??.??
Published:               28.12.10
 
 
References
1. Frumin, I.I. (1952) Alloying of deposited metal in submerged-arc welding. Avtomatich. Svarka, 1(22), 3-19.
2. Pokhodnya, I.K., Suptel, A.M. (1959) Mechanized open arc flux-cored wire welding. Ibid., 11, 3-12.
3. Pokhodnya, I.K., Shlepakov, V.N. (1961) Flux-cored wire with basic type core for semiautomatic open arc welding. Ibid., 7, 87-88.
4. Pokhodnya, I.K. (1963) State-of-the-art and prospects of development of mechanized open arc flux-cored wire welding. In: Proc. of 3rd Siberian Sci.-Techn. Conf. on Welding, Surfacing and Flame Treatment of Metals (Krasnoyarsk, 1963).
5. Pokhodnya, I.K., Suptel, A.M., Shlepakov, V.N. (1972) Flux-cored wire welding. Kiev: Naukova Dumka.
6. Pokhodnya, I.K., Shlepakov, V.N. (1970) Effectiveness of metal protection in flux-cored wire welding. Avtomatich. Svarka, 2, 10-12.
7. Shlepakov, V.N., Suprun, S.A., Kotelchuk, A.S. (1987) Kinetics of gas generation in flux-cored wire welding. IIW Doc. XII-1046-87.
8. Pokhodnya, I.K. (1972) Gases in welds. Moscow: Mashinostroenie.
9. Shlepakov, V.N. (1990) Kinetics of metal-gas interaction processes in flux-cored wire welding. In: Problems of welding and special electrometallurgy. Kiev: Naukova Dumka.
10. Pokhodnya, I.K., Demchenko, L.I., Shlepakov, V.N. et al. (1978) About mechanism of pore formation in welds. Avtomatich. Svarka, 6, 1-5.
11. Pokhodnya, I.K., Demchenko, V.F., Demchenko, L.I. (1979) Mathematical modeling of gas behavior in welds. Kiev: Naukova Dumka.
12. Shlepakov, V.N., Giyuk, S.P. (1987) Application of slot bead-on-plate test for evaluation of resistance to cold cracking. Avtomatich. Svarka, 5, 13-18.
13. Pokhodnya, I.K., Shvachko, V.I., Kotrechko, S.A. et al. (1998) New method for quantitative determination of susceptibility of steels to hydrogen embrittlement. Fiz.-Khimich. Mekhanika Materialov, 4, 79-84.
14. Shlepakov, V.N., Shevchenko, G.A. (1986) Alloying of fluxcored wire core in welding of steels with different level of strength. In: Proc. of 1st Int. School of CMEA Countries-Members on Flux-Cored Wire Welding. Metallurgical and Technological Problems of Flux-Cored Wire Welding (Sofia, April 1986). Kiev: Naukova Dumka, 84-88.
15. Shlepakov, V.N., Kotelchuk, A.S. (1989) Evaluation of structural composition of low-alloy weld metal produced with flux-cored wire. In: Coordination Center of CMEA Countries-Members on Problem of Evolution of Scientific Principles and Developments of New Technological Processes of Welding, Surfacing and Thermal Cutting of Different Materials and Alloys for Producing of Welded Structures and Effective Welding Consumables and Equipment. Issue 1. Kiev: PWI, 7-10.
16. Shlepakov, V.N., Kotelchuk, A.S., Naumeiko, S.M. (2000) Effect of nitride-forming elements on composition and structure of low-alloyed weld metal. The Paton Welding J., 6, 6-9.
17. Pokhodnya, I.K., Gorpenyuk, V.N., Milichenko, S.S. et al. (1990) Metallurgy of arc welding: Processes in arc and melting of electrodes. Ed. by I.K. Pokhodnya. Kiev: Naukova Dumka.
18. Pokhodnya, I.K., Orlov, L.N., Shevchenko, G.A. et al. (1985) Effect of alloying on mechanical properties of welds made with flux-cored wires. Avtomatich. Svarka, 7, 8-11.
19. Shlepakov, V.N., Kotelchuk, A.S., Suprun, S.A. (1999) Identification of flux-cored wire composition on electric signals of arc welding. Ibid., 8, 37-42.
20. Pokhodnya, I.K., Shlepakov, V.N., Orlov, L.N. (1983) Technological properties of slags in arc flux-cored wire welding with forced weld formation. In: Coordination Center of CMEA Countries-Members on Problem of Evolution of Scientific Principles and Developments of New Technological Processes of Welding, Surfacing and Thermal Cutting of Different Materials and Alloys for Producing of Welded Structures and Effective Welding Consumables and Equipment. Issue 1. Kiev: PWI, 94-97.
21. Shlepakov, V.N., Naumejko, S.M. (2001) Effect of surface tension of welding slags of salt-oxide system on characteristics of welding-technological properties of self-shielding flux-cored wire. The Paton Welding J., 11, 21-24.
22. Shlepakov, V.N., Bilinets, A.V. (2003) Flux-cored wires with metal core for gas-shielded welding. Ibid., 3, 44-45.
23. Pokhodnya, I.K., Shlepakov, V.N., Suprun, S.A. et al. (1983) Procedure of primary sanitary-hygienic evaluation of flux-cored wires. In: Coordination Center of CMEA Countries-Members on Problem of Evolution of Scientific Principles and Developments of New Technological Processes of Welding, Surfacing and Thermal Cutting of Different Materials and Alloys for Producing of Welded Structures and Effective Welding Consumables and Equipment. Issue 1. Kiev: PWI, 28.
24. GOST 26271-84: Flux-cored wire for arc welding of carbon and low-alloy steels. General specifications. Introd. 07.09.84.
25. Pokhodnya, I.K., Yavdoshchin, I.R., Shvachko, V.I. et al. (2004) Metallurgy of arc welding. Interaction of gases with metals. Ed. by I.K. Pokhodnya. Kiev: Naukova Dumka.
26. Pokhodnya, I.K., Suptel, A.M., Shlepakov, V.N. (1973) Arc flux-cored wire welding. Moscow: Mashinostroenie.
27. Pokhodnya, I.K., Suptel, A.M., Shlepakov, V.N. et al. (1975) Flux-cored wire welding of parts and assemblies of construction and road machines. Series 5: Technology, economics, organization of production. TsNIITEstrojmash.
28. Pokhodnya, I.K., Suptel, A.M., Shlepakov, V.N. et al. (1980) Flux-cored wires for electric arc welding: Catalogue-Refer. Book. Ed. by I.K. Pokhodnya. Kiev: Naukova Dumka.
29. Pokhodnya, I.K., Shejnkin, M.Z., Shlepakov, V.N. et al. (1987) Position arc welding of main pipelines. Moscow: Nedra.
30. Pokhodnya, I.K., Shlepakov, V.N. (1995) Welding with flux-cored wire. Series Welding and Surfacing Rev. Ed. by B.E. Paton. Vol. 4, Pt 4. Harwood AP.
31. Suptel, A.M., Pokhodnya, I.K. (1969) Flux-cored wire of rutile type for open arc welding: Guidelines on application. Kiev: Znanie.
32. Pokhodnya, I.K., Shlepakov, V.N. (1964) Flux-cored wire PP-AN3 for welding of low-carbon and low-alloy steels on higher currents. Avtomatich. Svarka, 1, 61-65.
33. Pokhodnya, I.K., Shlepakov, V.N. (1967) Flux-cored wire for open arc welding of low-carbon and low-alloy steels. Svarochn. Proizvodstvo, 2, 21-22.
34. Pokhodnya, I.K., Shlepakov, V.N. (1969) Flux-cored wire of carbonate-fluorite type for open arc welding: Guidelines on application. Kiev: Znanie.
35. Pokhodnya, I.K. (1967) Flux-cored wire welding and prospects of its development. Svarochn. Proizvodstvo, 11, 43-45.
36. Pokhodnya, I.K., Shlepakov, V.N., Suprun, S.A. (1973) Flux-cored wire PP-AN9 with improved hygienic characteristics. Ibid., 1, 48-49.
37. Pokhodnya, I.K., Kasatkin, B.S., Musiyachenko, V.F. et al. (1984) Flux-cored-wire PP-AN54 for welding of highstrength low-alloy steels:/L 58/1461. Kiev: PWI.
38. Shlepakov, V.N., Kotelchuk, A.S., Naumejko, S.M. et al. (2005) Influence of the composition of flux-cored wire core and shielding gas on the stability of arc welding process. The Paton Welding J., 6, 16-20.
39. Pokhodnya, I.K., Golovko, V.N. (1974) High productive flux-cored wire for CO2 welding. Avtomatich. Svarka., 7, 66-70.
40. Pokhodnya, I.K., Golovko, V.N., Suprun, S.A. et al. (1978) Peculiarities of CO2 flux-cored wire welding process. In: Coordination Center of CMEA Countries-Members on Problem of Evolution of Scientific Principles and Developments of New Technological Processes of Welding, Surfacing and Thermal Cutting of Different Materials and Alloys for Producing of Welded Structures and Effective Welding Consumables and Equipment. Issue 1. Kiev: PWI, 109-116.
41. Shlepakov, V.N., Gavrilyuk, Yu.A., Kotelchuk, A.S. et al. (2010) Principles of formation of flux-cored wire compositions with high welding rate. In: Abstr. of 5th Int. Conf. on Welding Consumables. Technologies. Production. Quality. Competitiveness (Artemovsk, 7-11 June, 2010). Kiev, 172-178.
42. Shlepakov, V.N., Gavrilyuk, Yu.A., Kotelchuk, A.S. (2010) State-of-the-art of development and application of flux-cored wires for welding of carbon and low-alloyed steels. The Paton Welding J., 3, 38-42.
43. Pokhodnya, I.K., Dubovetsky, V.Ya., Shlepakov, V.N. et al. (1966) Arc welding of vertical welds with forced formation. Avtomatich. Svarka, 11, 67-70.
44. Pokhodnya, I.K., Lebedev, B.F., Shlepakov, V.N. et al. (1981) Automatic self-shielded flux-cored wire welding of vertical welds in operational metal structures of nuclear power plants. Energomashinostroenie, 5, 34-36.
45. Pokhodnya, I.K., Suprun, S.A., Kazatsky, A.I. et al. (1987) Prospects of application of self-shielded flux-cored wire welding in shipbuilding. Sudostroenie, 5, 24-26.
46. Shlepakov, V.N., Suprun, S.A., Kotelchuk, A.S. (1990) Estimating of the characteristics of flux-cored wire welding under the wind flow effect. In: Proc. of Int. Conf. on Welding under Extreme Conditions (Helsinki, Finland, Sept. 4, 1989). Oxford, New York: Pergamon Press, 171-179.
47. Pochodnja, I.K., Shlepakov, V.N., Iljuschenko, W.M. et al. (1995) Hochleistungsschweissen von Vertikalnahten mit Zwangsformung. Sondertagung «Schweissen in Schiff- und Metallbau» mit Vorkolloqium (Rostok, Mai 4-5, 1995). Duesseldorf: DVS, 23.
48. Pokhodnya, I.K., Shlepakov, V.N., Dubovetsky, V.Ya. et al. (1983) Resource-saving technology of automatic welding of main pipelines with flux-cored wire and at forced weld formation. IIW Doc. XI-412-83.
49. Shlepakov, V.N. (1998) Flux-cored wire automatic electric arc welding of position butt joints of pipelines. In: Proc. of Int. Conf. on Welding of Pipelines (Istanbul, May 12-13, 1998), 1-8.
50. Paton, B.E., Pokhodnya, I.K., Dubovetsky, V.Ya. et al. (1981) Automatic self-shielded flux-cored wire welding of position butt joints of large diameter. Stroitelstvo Truboprovodov, 2, 22-24.
51. Pokhodnya, I.K., Shlepakov, V.N., Dubovetskii, V.Ya. et al. (1983) Resources-saving technology of position automatic flux-cored wire welding of gas pipelines with a forced weld formation. In: Proc. of Int. Conf. on Welding in Energy Related Projects (Toronto, Sept. 20-21, 1983), 133-139.
52. Savich, I.M. (1969) Underwater flux-cored wire welding. Avtomatich. Svarka, 10, 70.
53. Kononenko, V.Ya. (1980) Influence of carbon, silicon and manganese on technological properties and impact toughness of  underwater-welded metal. In: Underwater welding and cutting of metals. Ed. by A.E. Asnis. Kiev: PWI.
54. Asnis, A.E., Ignatushenko, A.A., Dyachenko, Yu.V. (1983) Method of decrease of hydrogen content in HAZ during mechanized underwater welding. Avtomatich. Svarka, 8, 1-4.
55. Ignatushenko, A.A., Denisenko, A.V., Djachenko, Yu.V. (1983) Mechanized underwater welding using austenitic consumables. In: Underwater welding. Oxford: Pergamon Press, 227-236.
56. Savich, I.M., Kononenko, V.Ya., Gusachenko, A.I. (1984) Structure of weld metal and near-weld zone in welding under the water of different salinity. Avtomatich. Svarka, 4, 50-52.
57. Gusachenko, A.I., Kononenko, V.Ya. (1989) Automatic underwater flux-cored wire welding of low-alloy steels. Ibid., 7, 32-34.
58. Gretsky, Yu.Ya., Maksimov, S.Yu. (1995) Effect of nickel on structure and properties of welds in underwater fluxcored wire welding. Ibid., 8, 56-57.
59. Yushchenko, K.A., Gretskii, Yu.A., Maksimov, S.Yu. (1998) Study of physico-metallurgical peculiarities of wet arc welding of structural steels. In: Underwater wet welding and cutting. Woodhead Publ., 6-29.
60. Maksimov, S.Yu., Savich, I.M., Zakharov, S.M. et al. (2003) Structure and properties of the metal deposited under the water by flux-cored wire with a nickel sheath. The Paton Welding J., 4, 18-21. 61. Gretsky, Yu.Ya., Maksimov, S.Yu. (2004) Increase in stability of arc, burning under water, in flux-cored wire welding. Ibid., 2, 9-12.
62. Yushchenko, K.A., Kakhovsky, Yu.M., Fadeeva, G.V. et al. (2006) Self-shielded flux-cored wire for underwater welding of high-alloy steels of 12Kh18N10T type. In: Problems of service life and security of structures, constructions and machines: Coll. of papers on results received in 2004-2006. Kyiv: PWI.
63. Danchenko, M.E., Savich, I.M., Nefedov, Yu.N. (1988) Underwater arc cutting with flux-cored wire. Avtomatich. Svarka, 4, 59-61.
64. Gretsky, Yu.Ya., Nefedov, Yu.N. (1993) Technology of mechanized underwater arc cutting with flux-cored wire of carbon and alloy steels. Kiev: PWI.
65. Kononenko, V.Ya., Rybchenkov, A.G. (1994) Experience of mechanized wet welding with self-shielded flux-cored wires in underwater repair of gas- and oil pipelines. Avtomatich. Svarka, 9/10, 29-32.
66. Kononenko, V.Ya., Gritsaj, P.M., Semenkin, V.I. (1994) Application of mechanized wet welding in repair of ship hulls. Ibid., 12, 35-38.
67. Kononenko, V.Ya. (2005) Application of the technology of mechanized underwater welding in construction of offshore ice-resistant platform «Prirazlomnaya». The Paton Welding J., 12, 47.
68. Savich, I.M., Maksimov, S.Yu. (2001) Application of mechanized cutting in pulling of submarine. Avtomatich. Svarka, 2, 59-60.
69. Frumin, I.I. (1961) Automatic electric arc surfacing. Kharkov: Metallurgizdat.
70. Podgaetsky, V.V. (1953) Reactions in arc atmosphere during submerged-arc welding. Avtomatich. Svarka, 1, 10-17.
71. Pokhodnya, I.K. (1955) Interaction of slag with metal in arc and electroslag surfacing of high-chromium ledeburite steels. Ibid., 5, 33-46.
72. Frumin, I.I., Rabkin, D.M., Podgaetsky, V.V. et al. (1956) Low-silicon fluxes for automatic welding and surfacing. Ibid., 1, 3-20.
73. Frumin, I.I. (1958) About achievement of equilibrium between slag and metal in welding and surfacing. Ibid., 1, 3-13.
74. Frumin, I.I. (1957) On mechanism of solidification cracks in welding and surfacing. Ibid., 1, 4-8.
75. Pokhodnya, I.K. (1955) About effect of cooling rate on formation of solidification cracks. Ibid., 6, 64-73.
76. Pokhodnya, I.K. (1956) About effect of chemical composition of iron-chrome-carbon alloys on formation of solidification cracks. Ibid., 6, 55-63.
77. Pokhodnya, I.K. (1959) Hot (solidification) cracks in surfacing of high-carbon high-chromium ledeburite steels. In: Hot cracks in welded joints, ingots and casts. Moscow: AN SSSR.
78. Kondratiev, I.A., Ryabtsev, I.A., Chernyak, Ya.P. (2006) Flux-cored wire for surfacing of maraging steel layer. The Paton Welding J., 4, 41-43.
79. Yuzvenko, Yu.A. (1972) Flux-cored wire for surfacing. Avtomatich. Svarka, 5, 67-71.
80. Yuzvenko, Yu.A., Kirilyuk, G.A. (1973) Flux-cored wire surfacing. Moscow: Mashinostroenie.
81. Ryabtsev, I.A., Kondratiev, I.A. (1999) Mechanized electric arc surfacing of metallurgical equipment parts. Kiev: Ekotekhnologiya.
82. Ryabtsev, I.A. (2004) Surfacing of machine and mechanism parts. Kiev: Ekotekhnologiya.
83. Pokhodnya, I.K., Alter, V.F., Shlepakov, V.N. et al. (1980) Production of flux-cored wire: Manual for institutes of higher education. Kiev: Vyshcha Shkola.

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