The Paton Welding Journal, 2018, №09



2018 №09 (04)

DOI of Article 10.15407/tpwj2018.09.05

2018 №09 (06)

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The Paton Welding Journal, 2018, #9, 23-27 pages
 

Application of electroslag welding in construction

K.A. Yushchenko, I.I. Lychko, S.M. Kozulin, A.A. Fomakin and I.S. Nesena

E.O. Paton Electric Welding Institute of the NAS of Ukraine 11 Kazimir Malevich Str., 03150, Kyiv, Ukraine. E-mail: office@paton.kiev.ua

The paper presents the results of experimental studies and engineering developments, which were the base for creating a technology and technique of performance of electroslag welding with consumable nozzle of reinforcing elements of building columns of a high-rise building. Experience of application of the developed technology in construction of a high-rise building is described. new machines and special technological fixture at performance of welding operations under assembly conditions was demonstrated. 15 Ref., 7 Figures.
Keywords: building columns, girths, reinforcing elements, electroslag welding, consumable nozzle, special technological fixture, assembly conditions, efficiency of welding operations
 
Received:                27.07.18
Published:               25.10.18
 
 
References

1. (1980) Electroslag welding and surfacing. Ed. by B.E. Paton. Moscow, Mashinostroenie [in Russian].
2. Magic, T., Hampton, Y.A. (1967) Electroslag welding with consumable guide on the Bank of America World Hearquarters Building. J., 47(12), 936–946.
3. Baigent, W.W. (1972) Inescapable in heavy columns: Close work high deposition. Des. and Fabr., 45(5), 39–42.
4. Hannahs, J., Lea, D. (1970) Where to consider electroslag welding. Metal Prog., 98(5), 62–64.
5. (1973) Massive building calls for massive welds. Des. and Fabr., 46(8), 47.
6. (1965) Method of production of round columns using electroslag welding. Pat. 24811, Japan [in Russian].
7. (1962) Electroslag welding process attains production status. Mach. and Metalwork, 73(8), 128.
8. Janice, J., Chambers, Brett R. Manning (2016) Electroslag welding: From shop to field. Structure Magazine, February, 20–23.
9. Takahiko Suzuki, Takumi Ishii (2017) Guidebook for preventing brittle fractures of inner diaphragm electroslag welds. Steel Construction Today & Tomorrow, 52, 9–12.
10. Sineok, A.G., Demchenko, Yu.V., Proskudin, V.N. et al. (2015) Substantiation of economic efficiency for application of different welding methods and steels for repair of blast furnace jacket No. 4 PJSC MK Azovstal. Svarshchik, 4, 18–21 [in Russian].
11. Trufyakov, V.I., Dvoretsky, V.I., Mikheev, P.P. et al. (1990) Strength of welded joints under alternating loads. Ed. by V.I. Trufyakov. Kiev, Naukova Dumka [in Russian].
12. Kozulin, S.M., Podima, G.S. (2016) Device for weld formation in difficult-of-access areas of thick-wall metal structures. In: of 5th All-Ukrainian Sci.-Pract. Conf. of Students, Postgraduate Students and Junior Scientists on Applied Geometry, Design, Objects of Intellectual Property and Innovation Activity of Students and Junior Scientists. Kyiv, DIYa, 5, 127–131 [in Ukrainian].
13. Kozulin, S.M., Podyma, G.S. (2018) Forming devices for electroslag welding of reinforcement elements of building column openings. In: of 5th All-Ukr. Sci.-Pract. Conf. of Students, Postgraduate Students and Junior Scientists on Applied Geometry, Design, Objects of Intellectual Property and Innovation Activity of Students and Junior Scientists. Kyiv, DIYa, 7, 62–66 [in Russian].
14. Yushchenko, K.A., Lychko, I.I., Kozulin, S.M. et al. (2012) Portable apparatus for consumable-nozzle electroslag welding. The Paton Welding J., 8, 45–46.
15. com.ua/

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