Microstructural changes in the welding of titanium-stabilized steels

Microstructural changes in the welding of titanium-stabilized steels

At the Central Institute for Engineering, electronics, and Analytics (ZEA-1 by its acronym in German) of the Jülich Research Center GmbH, a cryostat was developed for the European Spallation Neutron Source (ESS) and manufactured from a titanium-stabilized austenitic stainless steel alloy (EN 1.4571)...

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Veröffentlicht in:Praktische Metallographie 2024-08, Vol.61 (9), p.717-727
Hauptverfasser: Wanhoff, D., Schulze-Küppers, F., Bauske, N., Beßler, Y., Groß-Barsnick, S., Pauly, F., Willms, H., Natour, G.
Format: Artikel
Sprache:eng
Schlagworte:
failure analysis
Forschung
Materialographie
materialography
materials science
Materialwissenschaft
Metallographie
metallography
Schadensfall
Schweißverfahren
welding process
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Beschreibung
Zusammenfassung:At the Central Institute for Engineering, electronics, and Analytics (ZEA-1 by its acronym in German) of the Jülich Research Center GmbH, a cryostat was developed for the European Spallation Neutron Source (ESS) and manufactured from a titanium-stabilized austenitic stainless steel alloy (EN 1.4571). After tungsten inert gas welding, the welds exhibited a black, patchy discoloration. After materialographic preparation, the phenomena were examined using microscopic methods to assess their impact on the strength of the weld and thus on the usability of the cryostat. Not only could the impact on the cryostat operation be assessed, but the formation mechanism could be elucidated and suitable measures could be outlined to avoid the black, patchy discoloration.
ISSN:0032-678X
2195-8599
DOI:10.1515/pm-2024-0060