Dissimilar Laser Welding/Brazing of 5754 Aluminum Alloy to DP 980 Steel: Mechanical Properties and Interfacial Microstructure

A diode laser welding/brazing technique was used for lap joining of 5754 aluminum alloy to DP 980 steel with Al-Si filler metal. The correlation between joint interfacial microstructure, wettability of filler metal, and mechanical properties was systematically investigated. At low laser power (1.4 kW), a layer of intermetallic compounds, composed of θ-Fe(Al,Si)3 and τ5-Al7.2Fe1.8Si, was observed at the interface between fusion zone and steel. Because of the poor wettability of filler metal on the steel substrate, the joint strength was very low and the joint failed at the FZ/steel interface. When medium laser power (2.0 kW) was applied, the wettability of filler metal was enhanced, which improved the joint strength and led to FZ failure. With further increase of laser power to 2.6 kW, apart from θ and τ5, a new hard and brittle η-Fe2(Al,Si)5 IMC with microcracks was generated at the FZ/steel interface. The formation of η significantly degraded the joint strength. The failure mode changed back to interfacial failure.

[1]  D. Bonn,et al.  Wetting and Spreading , 2009 .

[2]  G. S. Cole,et al.  Light weight materials for automotive applications , 1995 .

[3]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[4]  Yixiong Wu,et al.  Influence of alloy elements on microstructure and mechanical property of aluminum–steel lap joint made by gas metal arc welding , 2014 .

[5]  W. Cheng,et al.  Observation of high-temperature phase transformation in the Si-modified aluminide coating on mild steel using EBSD , 2010 .

[6]  J. Petitet,et al.  Interactions under hydrostatic pressure of a mild steel with liquid aluminium alloys , 1995 .

[7]  P. Peyre,et al.  Steel to aluminium braze welding by laser process with Al–12Si filler wire , 2008 .

[8]  K. Saida,et al.  Diode laser brazing of aluminium alloy to steels with aluminium filler metal , 2005 .

[9]  Mustafa Acarer,et al.  An investigation of mechanical and metallurgical properties of explosive welded aluminum–dual phase steel , 2008 .

[10]  K. H. Rendigs Aluminium Structures Used in Aerospace - Status and Prospects- , 1997 .

[11]  J. Bouix,et al.  Interface chemistry in aluminium alloy castings reinforced with iron base inserts , 2002 .

[12]  Sanbao Lin,et al.  Flux modification for AC-TIG braze welding of aluminium to stainless steel , 2014 .

[13]  K. P. Rao,et al.  Study on laser welding-brazing of zinc coated steel to aluminum alloy with a zinc based filler , 2011 .

[14]  A. Fuji,et al.  Joining phenomena and joint strength of friction welded joint between pure aluminium and low carbon steel , 2009 .

[15]  Jamshid Sabbaghzadeh,et al.  DISSIMILAR WELDING OF CARBON STEEL TO 5754 ALUMINUM ALLOY BY ND:YAG PULSED LASER , 2010 .

[16]  Peng He,et al.  Interfacial microstructure and mechanical properties of aluminium-zinc-coated steel joints made by a modified metal inert gas welding-brazing process , 2007 .

[17]  Eugen Cicala,et al.  Dissimilar material joining using laser (aluminum to steel using zinc-based filler wire) , 2007 .

[18]  Anupam Vivek,et al.  Microstructures and Mechanical Properties of Laser Penetration Welding Joint With/Without Ni-Foil in an Overlap Steel-on-Aluminum Configuration , 2014, Metallurgical and Materials Transactions A.

[19]  Chunli Yang,et al.  Effects of Si additions on intermetallic compound layer of aluminum–steel TIG welding–brazing joint , 2009 .

[20]  B. Cullity,et al.  Elements of X-ray diffraction , 1957 .

[21]  J. Rock,et al.  Microstructure studies of an aluminide coating on 9Cr-1Mo steel during high temperature oxidation , 2006 .

[22]  Chunli Yang,et al.  Metallurgical and mechanical investigations of aluminium-steel butt joint made by tungsten inert gas welding–brazing , 2009 .

[23]  A. Mathieu,et al.  Laser brazing of a steel/aluminium assembly with hot filler wire (88% Al, 12% Si) , 2006 .

[24]  M. S. Nezhad,et al.  A study of joint quality of aluminum and low carbon steel strips by warm rolling , 2009 .

[25]  Chao Yang,et al.  Brazability of dissimilar metals tungsten inert gas butt welding-brazing between aluminum alloy and stainless steel with Al-Cu filler metal , 2010 .

[26]  S. Gupta Intermetallic compound formation in Fe–Al–Si ternary system: Part II , 2002 .

[27]  Yixiong Wu,et al.  Quantitative characterization of porosity in Fe–Al dissimilar materials lap joint made by gas metal arc welding with different current modes , 2014 .

[28]  C. Dong,et al.  Arc joining of aluminum alloy to stainless steel with flux-cored Zn-based filler metal , 2010 .

[29]  N. Takata,et al.  Morphology and formation of Fe–Al intermetallic layers on iron hot-dipped in Al–Mg–Si alloy melt , 2014 .

[30]  C. Dong,et al.  Dissimilar metal joining of aluminum alloy to galvanized steel with Al–Si, Al–Cu, Al–Si–Cu and Zn–Al filler wires , 2012 .

[31]  M. Gao,et al.  Interface properties and thermodynamic analysis of laser–arc hybrid welded Al/steel joint , 2013 .

[32]  J. Pan,et al.  Fatigue behavior of dissimilar spot friction welds in lap-shear and cross-tension specimens of aluminum and steel sheets , 2010 .

[33]  Yasuo Muraoka,et al.  Development of an all-aluminum automotive body , 1993 .