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Article Dans Une Revue Materials Science and Engineering: A Année : 2007

Generation of aluminum-steel joints with laser-induced reactive wetting

P. Peyre
  • Fonction : Auteur
G. Sierra
  • Fonction : Auteur
D. Stuart
  • Fonction : Auteur
Gilles Fras
  • Fonction : Auteur
  • PersonId : 891171

Résumé

A new mean of assembling steel to aluminiumwas developed, following previouswork by Germanworkers [1]. In this newmethod, a laser-induced aluminium melt pool spreads and wets a solid steel, to generate, after solidification a sound and resistant interface layer. Joint properties were investigated, in terms of surface aspects, interface microstructures and mechanical resistances under tensile testing, for non-galvanized and galvanized DC04 steels. Thermal and diffusional finite element (FE) simulations were also carried out to calculate temperature history at interfaces, and reaction layer thickness. The 2–20 m thick reaction layers formed all along the interface were found to be mostly composed of Fe2Al5 intermetallic compound with a high hardness (1200 HV) and rather low ductility (presence of solidification cracks). The presence of a 10 m thick Zn layer on the steel was shown to have a beneficial influence on the wetting characteristics of the joint, despite the formation of occluded pores in the melt pool due to Zn vaporisation. FE thermal modelling evidenced 760–1020 ◦C wetting temperatures at the interface between DC04 low carbon steel and 6016 aluminium sheets, with time maintains of the melt pool in the 0.2–0.5 s range, resulting in high-speed reaction kinetics. Using these temperature data, diffusion calculations were shown to provide a rather good prediction of intermetallic thicknesses. Tensile tests were considered on aluminium–steel lap joints and evidenced higher mechanical resistances (220 N/mm linear tensile strength) on galvanized steels, provided that fluxing of the steel surfacewas carried out prior to welding to avoid zinc vaporisation. Comparatively, non-galvanized assemblies exhibited much lower mechanical resistances (170 N/mm resulting in a 90MPa interfacial shear strength). It was concluded that the laser-induced wetting technique is a rather effective way for generating Al-steel joints without filler material, and that it should be considered as a competitive technique versus solid assembly modes (friction stir welding . . .).

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Dates et versions

hal-00562415 , version 1 (03-02-2011)

Identifiants

Citer

P. Peyre, G. Sierra, Frederic Deschaux-Beaume, D. Stuart, Gilles Fras. Generation of aluminum-steel joints with laser-induced reactive wetting. Materials Science and Engineering: A, 2007, 444 (1-2), pp.327-338. ⟨10.1016/j.msea.2006.09.111⟩. ⟨hal-00562415⟩
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