References
- Mei SW, Gao M, Yan J, Zhang C, Li G and Zeng XY: ‘Interface properties and thermodynamic analysis of laser-arc hybrid welded Al/steel joint’, Sci. Technol. Weld. Join., 2013, 18, 293–300.
- He H, Yang C, Lin S, Fan C and Chen Z: ‘Flux modification for AC-TIG braze welding of aluminium to stainless steel’, Sci. Technol. Weld. Join., 2014, 19, 527–533.
- Agudo L, Eyidi D, Schmaranzer CH, Arenholz E, Jank N, Bruckner J and Pyzalla AR: ‘Intermetallic FexAly-phases in a steel/Al-alloy fusion weld’, J. Mater. Sci., 2007, 42, 4205–4214.
- Qiu RF, Iwamoto C and Satonaka S: ‘Interfacial reaction layer in resistance spot welded joint between aluminium alloy and austenitic stainless steel’, Mater. Sci. Technol., 2010, 26, 243–246.
- Hirose A and Kobayashi K: ‘Welding and joining processes for automobiles’, J. Jpn Inst. Light Met., 2006, 56, 184–188.
- Thomas WM, Threadgill PL and Nicholas ED: ‘Feasibility of friction stir welding steel’, Sci. Technol. Weld. Join., 1999, 4, 365–372.
- Lee WB, Schmuecker M, Mercado UA, Biallas G and Jung SB: ‘Interfacial reaction in steel–aluminum joints made by friction stir welding’, Scr. Mater., 2006, 55, 355–358.
- Huseyin U, Claudio DD, Alberto A, Tommaso G and Carla G: ‘Friction stir welding of dissimilar Al 6013–T4 to X5CrNi18–10 stainless steel’, Mater. Des., 2005, 26, 41–46.
- Springer H, Kostka A, dos Santos JF and Raabe D: ‘Influence of intermetallic phases and Kirkendall-porosity on the mechanical properties of joints between steel and aluminium alloys’, Mater. Sci. Eng. A, 2011, A528, 4630–4642.
- Watanabe T, Yanagisawa A and Takayama H: ‘Solid state welding aluminum alloy to steel using a rotating pin’, Q. J. Jpn Weld. Soc., 2004, 22, 141–148.
- Miyagawa K, Tsubaki M, Yasui T and Fukumoto M: ‘Spot welding between aluminum alloy and Zn coated steel by friction stirring’, Q. J. Jpn Weld. Soc., 2008, 26, 131–136.
- Coelho RS, Kostka A, Sheikhi S, Santos JF and Pyzalla A: ‘Microstructure and mechanical properties of an AA6181-T4 aluminium alloy to HC340LA high strength steel friction stir overlap weld’, Adv. Eng. Mater., 2008, 10, 961–972.
- Tanaka K, Kumagai M and Yoshida H: ‘Dissimilar joining of aluminum alloy and steel sheets by friction stir spot welding’, J. Jpn Inst. Light Met., 2006, 56, 317–322.
- Kimapong K and Watanabe T: ‘Effect of welding process parameters on mechanical property of FSW lap joint between aluminum alloy and steel’, Mater. Trans., 2005, 46, 2211–2217.
- Lee CY, Choi DH, Yeon YM and Jung SB: ‘Dissimilar friction stir spot welding of low carbon steel and Al–Mg alloy by formation of IMCs’, Sci. Technol. Weld. Join., 2009, 14, 216–220.
- Kumai S, Sato H, Suzuki K and Ookawa T, Lee K, Watanabe M: ‘Effects of probe tip position on microstructure and bonding strength of friction stir welded aluminum alloy/steel lap joint’, J. Jpn Inst. Light Met., 2007, 57, 529–535.
- Watanabe M, Okawa T and Kumai S: ‘Formation of laminate structure at the friction stir weld interface of aluminum alloy/steel lap joint’, J. Jpn Inst. Light Met., 2007, 57, 536–541.
- Ogura T, Saito Y, Nishida T, Nishida H, Yoshida T, Omichi N, Fujimoto M and Hirose A: ‘Partitioning evaluation of mechanical properties and the interfacial microstructure in a friction stir welded aluminum alloy/stainless steel lap joint’, Scr. Mater., 2012, 66, 531–534.
- Ogura T, Nishida T, Tanaka Y, Nishida H, Yoshikawa S, Fujimoto M and Hirose A: ‘Microscale evaluation of mechanical properties of a friction stir welded A6061 aluminium alloy/304 stainless steel dissimilar lap joint’, Sci. Technol. Weld. Join., 2013, 18, 108–113.
- Chen YC, Gholinia A and Prangnell PB: ‘Interface structure and bonding in abrasion circle friction stir spot welding: a novel approach for rapid welding aluminium alloy to steel automotive sheet’, Mater. Chem. Phys., 2012, 134, 459–463.
- Das H, Jana SS, Pal TK and De A: ‘Numerical and experimental investigation on friction stir lap welding of aluminium to steel’, Sci. Technol. Weld. Join., 2014, 19, 69–75.
- Xiong JT, Li LJ, Qian WJ, Zhang SF and Huang DW: ‘High strength lap joint of aluminium and stainless steels fabricated by friction stir welding with cutting pin’, Sci. Technol. Weld. Join., 2012, 17, 196–201.
- Schmidt HNB, Dickerson TL and Hattel JH: ‘Material flow in butt friction stir welds in AA2024-T3’, Acta Mater., 2006, 54, 1199–1209.
- Prangnell PB and Heason CP: ‘Grain structure formation during friction stir welding observed by the “stop action technique”’, Acta Mater., 2005, 53, 3179–3192.
- Leal RM, Leitao C, Loureiro A, Rodrigues DM and Vilaca P: ‘Material flow in heterogeneous friction stir welding of thin aluminium sheets Effect of shoulder geometry’, Mater. Sci. Eng. A, 2008, A498, 384–391.
- Tanaka T, Morishige T and Hirata T: ‘Comprehensive analysis of joint strength for dissimilar friction stir welds of mild steel to aluminum alloys’, Scr. Mater., 2009. 61, 756–759.
- Yu H, Xu Z, Fan Z, Zhao Z and Li C: ‘Mechanical property and microstructure of aluminum alloy-steel tubes joint by magnetic pulse welding’, Mater. Sci. Eng. A, 2013, A561, 259–265.
- Kuroda S, Saida K and Nishimoto K: ‘Microstructure and properties of directly bonded joint of A6061 aluminum alloy to SUS316 stainless steel’, Q. J. Jpn Weld. Soc., 1999, 17, 484–489.
- Gerlish A, Su P, Yamamoto M and North TH: ‘Effect of welding parameters on the strain rate and microstructure of friction stir spot welded 2024 aluminum alloy’, J. Mater. Sci., 2007, 42, 5589–5601.
- Svensson LE, Karlsson L, Larsson H, Karlsson B, Fazzini M and Karlsson J: ‘Microstructure and mechanical properties of friction stir welded aluminium alloys with special reference to AA 5083 and AA 6082’, Sci. Technol. Weld. Join., 2000, 5, 285–296.
- Zhang Z, Chen JT, Zhang ZW and Zhang HW: ‘Coupled thermo-mechanical model based comparison of friction stir welding processes of AA2024-T3 in different thicknesses’, J. Mater. Sci., 2011, 46, 5815–5821.
- Aval JH, Serajzadeh S and Kokabi AH: ‘Evolution of microstructures and mechanical properties in similar and dissimilar friction stir welding of AA5086 and AA6061’, Mater. Sci. Eng. A, 2011, A528, 8071–8083.