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Начата 20 февраля 2014 и полномасштабно продолжена 24 февраля 2022 года. С первых же минут рф ведет ее с нарушением законов и правил войны, захватывает атомные станции, уничтожает бомбардировками мирное население и объекты критической инфраструктуры. Правители и армия рф - военные преступники. Все, кто платит им налоги или оказывают какую-либо поддержку - пособники терроризма. Народ Украины вас никогда не простит и ничего не забудет.
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2014 №06 (14) DOI of Article
10.15407/tpwj2014.06.15
2014 №06 (16)

The Paton Welding Journal 2014 #06
TPWJ, 2014, #6-7, 76-79 pages  
INVESTIGATION OF INFLUENCE OF MICROALLOYING WITH TITANIUM AND BORON OF WELD METAL ON ITS MECHANICAL PROPERTIES IN UNDERWATER WELDING
 
Journal                    The Paton Welding Journal
Publisher                 International Association «Welding»
ISSN                       0957-798X (print)
Issue                       № 6-7, 2014 (June-July)
Pages                      76-79
 
 
Authors
S.Yu. MAKSIMOV, V.V. MACHULYAK, A.V. SHEREMETA and E.I. GONCHARENKO
E.O. Paton Electric Welding Institute, NASU. 11 Bozhenko Str., 03680, Kiev, Ukraine. E-mail: office@paton.kiev.ua
 
 
Abstract
One of the negative consequences of effect of extreme conditions of underwater welding is a low level of properties of welded joints, in the first turn, of ductility. Traditionally, this task is solved by optimization of microstructure of weld metal due to rational alloying. The purpose of this work was to establish the influence of microalloying of weld metal with titanium and boron on its mechanical properties in underwater welding using flux-cored wire. The structure of metal formed as a result of microalloying was investigated, and values of mechanical properties of deposited metal were determined. Optimal proportions of microalloying were established, at which high values of elongation of weld metal are provided. It is shown that its mechanical properties meet the requirements of A class of Specification on underwater welding ANSI/AWS D3.6. 5 Ref., 2 Tables, 7 Figures.
 
 
Keywords: underwater welding, flux-cored wire, weld metal, microalloying, structure, mechanical properties
 
 
Received:                28.03.14
Published:               28.09.14
 
References
1. Ibarra, S., Grabbs, C., Olson, D.L. (1988) Fundamental approaches to underwater welding metallurgy. J. of Metals, 12, 8-10.
2. Oh, D.W., Olson, D.L. (1990) The influence of boron and titanium on low carbon steel weld metal. Welding J., 4, 151-158.
3. Sanchez-Osio, A., Liu, S., Olson, D.L. et al. (1993) Underwater wet welding consumables for offshore applications. In: Proc. of 12th Int. Conf. on Offshore Mechanics and Arctic Engineering, Vol. 3, PtA, 119-128.
4. Maksimov, S.Yu., Krazhanovsky, D.V. (2006) Content of acicular ferrite in weld metal in wet welding. The Paton Welding J., 1, 45-47.
5. ANSI/AWS. D3.6: Specification for underwater welding.