Microstructure and mechanical behaviour of aluminium-carbon steel and aluminium-stainless steel clads produced with an aluminium interlayer

The influence of an interlayer on the microstructure and the mechanical behaviour of aluminium‑carbon steel and aluminium-stainless steel clads produced by explosive welding was studied. Different series of welds were produced both with and without an aluminium interlayer, testing different welding...

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Bibliographic Details
Published in:Materials characterization 2019-09, Vol.155, p.109819, Article 109819
Main Authors: Carvalho, G.H.S.F.L., Galvão, I., Mendes, R., Leal, R.M., Loureiro, A.
Format: Article
Language:English
Subjects:
Dissimilar welding
Explosive welding
Interlayer
Intermetallic phases
Solid-state processes
Weldability
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Summary:The influence of an interlayer on the microstructure and the mechanical behaviour of aluminium‑carbon steel and aluminium-stainless steel clads produced by explosive welding was studied. Different series of welds were produced both with and without an aluminium interlayer, testing different welding parameters. The combination of aluminium to carbon steel presented a better weldability than aluminium to stainless steel. For both couples, low-velocity welds presented the best microstructure and mechanical strength. The mechanical tests showed that the aluminium to carbon steel joining did not benefit from the use of the interlayer. A joint with good interfacial morphology and excellent tensile-shear properties was achieved by low-velocity direct welding, with the fracture occurring outside the joining region. For the aluminium to stainless steel couple, the use of the interlayer increased its weldability. However, the mechanical strength of the joint is restricted by the low strength of the interlayer. The presence of intermetallic compounds at the weld interface, does not, by itself, promote the poor-quality of the explosive weld. The way the interface accommodates and distributes these intermetallics dictates the weld's quality. •Low collision point velocity welds presented better mechanical performance.•Good quality aluminium‑carbon steel weld was achieved by low velocity direct welding.•The interlayer improved the weldability of the aluminium-stainless steel weld.•The interface morphology and intermetallics distribution dictate the weld quality.
ISSN:1044-5803
1873-4189
DOI:10.1016/j.matchar.2019.109819