2016-1(18)

Design, manufacturing and commissioning of nuclear industry equipment

Article NameModern Methods of Automatic Welding of Responsible Large Dimension Thin-walled Aluminum Workpieces: Analysis of the Technological Capability
AuthorsA.M. Tupitsyn* **(1), E.A. Gladkov** (2), A.V. Chernov***(3)
Address

* LLC "SVARBI", 6 build, 6 Dorozhny proezd, Moscow, Russia 117545
** Moscow State Technical University by N.E. Bauman, 1 build, 5 Second-Bauman St., Moscow, Russia 105005
***  Volgodonsk Engineering Technical Institute the branch of National Research Nuclear University «MEPhI», 73/94 Lenin St., Volgodonsk, Rostov region, Russia 347360
(1)
e-mail: alexhao@ya.ru ; (2) e-mail: 123777@bk.ru ; (3) e-mail: viti@mephi.ru

AbstractThis article analyzes the technological capability of the modern methods of welding large dimension thin-walled aluminum workpieces. Types, merits and demerits, types of defects which appear when using arc, frictional, laser and hybrid techniques are considered. The most optimum and rational method of welding is selected according to analysis results.
Keywordsautomatic welding methods, welding of aluminum alloys, welding of large workpieces, arc welding, friction welding, laser welding, hybrid welding
LanguageRussian
References

[1]    Mathers G. The Welding of Aluminium and its Alloys. Cambridge. Woodhead Publishing Ltd, 2002, ISBN 1-85573-567-9, 242 p. (in English)
[2]    Makarov E.L., Jakushin B.F. Teorija svarivaemosti stalej i splavov [Theory of weldability of steels and alloys]. – M. Pub. MSTU N.E. Bauman, 2014, ISBN 978-5-7038-3938-6, 487 p. (in Russian)
[3]    Dawes C.J. Friction stir welding. TALAT, 1999, p. 13. Available at: http://mitpublications.org/yellow_images/1361513532_logo_File%204.pdf  (in English)
[4]    Thomas W.M., Norris I.M., Staines D.G., Watts E.R. Friction stir welding – process developments and variant techniques. SME Summit. Oconomowoc, 3-4 August 2005, Milwaukee, USA. pp. 1–21. Available at: http://hegesztesportal.hu/tudastar/wt_fsw.pdf  (in English)
[5]    Threadgill P.L., Leonard A.J., Shercliff H.R., Withers P.J. Friction stir welding of aluminium alloys. International Materials Reviews. 2009, Vol. 54, Issue 2, ISSN 0950-6608, DOI 10.1179/174328009X411136, pp. 49–93. (in English)
[6]    Gibson B.T., Lammleinb D.H., Praterc T.J., Longhurstd W.R., Coxa C.D., Balluna M.C., Dharmaraja K.J., Cooka G.E., Straussa A.M. Friction stir welding: Process, automation, and control. Journal of Manufacturing Processes. 2014, Vol. 16, Issue 1, ISSN 1526-6125, DOI: 10.1016/j.jmapro.2013.04.002, pp. 56–73. (in English)
[7]    Ignatov A. Lazernaja svarka stalej moshhnymi CO2-lazerami [Laser welding of steels by powerful Carbone dioxide lasers]. Fotonika [Pfotonika], 2008, №6, ISSN 1993-7296, p. 8. (in Russian)
[8]    Shiganov I., Holopov A. Lazernaja svarka aljuminievyh splavov [Laser welding of aluminum alloys]. Fotonika [Photonika], 2010, №3, ISSN 1993-7296, pp. 6–10. (in Russian)
[9]    Shiganov I.N., Shahov S.V., Holopov A.A. Lazernaja svarka aljuminievyh splavov aviacionnogo naznachenija [Laser welding of aluminium alloys of aviation assignments] Inzhenernyy zhurnal: nauka i innovatsii [Engineering journal: science and innovations], 2012, №6(6), ISSN 2308-6033, p. 2. (in Russian)
[10]    Bagger C., Olsen F. Review of laser hybrid welding. Journal of Laser Applications, 2005, Vol. 17, №1, DOI 10.2351/1.1848532, p. 13. (in English)
[11]    Grigoryajanc A.G., Shiganov I.N., Chirkov A.M. Gibridnye tehnologii lazernoj svarki [Hybrid laser welding technology]. M. Pub. MSTU N.E. Bauman, 2004, ISBN 5-7038-2614-4, 49 p. (in Russian)
[12]    Innovacionnye processy svarki TIG/plazmennoj svarki ot kompanii EWM [Innovative welding processes of TIG/plasma welding from EWM company], 2014, pp. 1-24. (in Russian)
[13]    Gladkov Je.A., Brodjagin V.N., Perkovskij R.A. Avtomatizacija svarochnyh processov [Automation of welding processes]. M. Pub. MSTU N.E. Bauman, 2014, ISBN 978-5-7038-3861-7, 421 p. (in Russian)
[14]    Lincoln Electric. Pulse-On-Pulse GMAW (MIG), 2006, p. 1-4. (in English)
[15]    Sheljagin V.A., Orishich A.M. etc. Tehnologicheskie osobennosti lazernoj, mikroplazmennoj i gibridnoj lazernoj-mikroplazmennoj svarki aljuminievyh splavov [Technological features of laser, microplasma and hybrid laser-welding aluminum alloys] Avtomaticheskaya svarka [Automatic welding], 2014, №5(734), ISSN 0005-111X, p. 35-42. (in Russian)
[16]    Paul K., Ridel F. Gibridnaja lazernaja svarka [Hybrid laser welding]. Fotonika [Pfotonika], 2009, №1, ISSN 1993-7296, pp. 2–5. (in Russian)
[17]    Paton B.E. etc. Mikroplazmennaja svarka [Microplasma welding]. Kiev. Pub. Naukova Dumka [Scientific thought], 1979, 249 p. (in Russian)
[18]    Paton B.E. etc. Gibridnaja lazerno-mikroplazmennaja svarka metallov malyh tolshhin [Hybrid laser-microplasma welding of thin metals]. Avtomaticheskaya svarka [Automatic welding], 2002, №3, ISSN 0005-111X, p. 5-9. (in Russian)
[19]    Grezev N.V. Razrabotka sposoba dvuhluchevoj lazernoj svarki konstrukcionnyh nizkolegirovannyh trubnyh stalej [Method of dual beam laser welding of tube made from structural low-alloyed steel] : avtoreferat dissertatsii na soiskanie uchenoy stepeni kandidata tekhnicheskikh nauk [Abstract of thesis, c.t.s], M. 2010, 18 p. (in Russian)
[20]    Gladkov Je.A. Upravlenie processami i oborudovaniem pri svarke [process and equipment control for welding. M. Pub. Tsentr Academia [Center "Academy"], 2006, ISBN 5-7695-2301-8, 432 p. (in Russian)

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