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Welding of high-resilience martensitic stainless steel for hydrodynamic components in innovative seacraft: a comparison of traditional and HDE technologies

TitleWelding of high-resilience martensitic stainless steel for hydrodynamic components in innovative seacraft: a comparison of traditional and HDE technologies
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2015
AuthorsBarbieri, Giuseppe, Cognini Francesco, Moncada M., and Morabito G.
JournalWelding International
Volume29
Pagination40-53
Type of ArticleArticle
ISSN09507116
Keywordscomparisons, Electron beam welding, Hydrodynamic component, Laser beam welding, Martensitic stainless steel, Mechanical properties, MMA welding, Process parameters, Shipbuilding, Ships, Stainless steel, Weldability
Abstract

For the designer, the production of innovative seacraft involves the use of atypical materials at the shipyard. This article presents a comparison between traditional (SMAW) and innovative [LBW, electron beam welding (EBW)] welding technologies to illustrate the feasibility and suitability – also in economic terms – of the penetration of new welding technologies in the shipbuilding sector. In particular, the material considered for the production of submerged bearing components in an innovative submerged-wing hydrofoil is X4CrNiMo13-4, a martensitic stainless steel presenting improved resilience chosen by the shipbuilding company (Rodriquez Cantieri Navali), above all, on account of its high mechanical strength. In order to avoid costly PWHT, which, given the large size of the components, has a heavy influence on production costs, welding procedure specifications were developed using an austenitic filler material that, while inducing a limited reduction in performance in the melt zone, allows for conspicuous economic advantages. Research has shown how EBW technology undoubtedly allows for better results, while – although it would be more suitable for large-size components – LBW technology requires a more critical optimization of parameters. © 2013, © 2013 Taylor & Francis.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84907703127&doi=10.1080%2f09507116.2012.753308&partnerID=40&md5=ea7ab84754793620f6ba0cd1d7c3d974
DOI10.1080/09507116.2012.753308
Citation KeyBarbieri201540