Review on electromagnetic welding of dissimilar materials

Chen S, Jiang X. Microstructure evolution during magnetic pulse welding of dissimilar aluminium and magnesium alloys. Journal of Manufacturing Processes, 2015, 19: 14–21 Schäfer R, Pasquale P. The electromagnetic pulse technology (EMPT): Forming, welding, crimping and cutting. Biuletyn Instytutu Spawalnictwa, 2014, 58(2): 50–57 Kore S D, Date P P, Kulkarni S V. Effect of process parameters on electromagnetic impact welding of aluminum sheets. International Journal of Impact Engineering, 2007, 34(8): 1327–1341 Faes K. Electronic pulsetube welding. 2011. https://www.researchgate. net/publication/230757399_ Aizawa T, Kashani M. Experimental and numerical study on magnetic pulse welding to improving the life time of one-turn flat coil. IOP Conference Series: Materials Science and Engineering, 2014, 61(1): 012028 Raoelison R N, Racine D, Zhang Z, et al. Magnetic pulse welding: Interface of Al/Cu joint and investigation of intermetallic formation effect on the weld features. Journal of Manufacturing Processes, 2014, 16(4): 427–434 Raoelison R N, Buiron N, Rachik M, et al. Efficient welding conditions in magnetic pulse welding process. Journal of Manufacturing Processes, 2012, 14(3): 372–377 Aizawa T, Okagawa K, Kashani M. Application of magnetic pulse welding technique for flexible printed circuit boards (FPCB) lap joints. Journal of Materials Processing Technology, 2013, 213(7): 1095–1102 Watanabe M, Kumai S, Hagimoto G, et al. Interfacial microstructure of aluminum/metallic glass lap joints fabricated by magnetic pulse welding. Materials Transactions, 2009, 50(6): 1279–1285 Shribman V. Magnetic pulse welding for dissimilar and similar material. In: Proceedings of 3rd International Conference on High Speed Forming. Dortmund, 2008, 13–22 Kore S D, Dhanesh P, Kulkarni S V, et al. Numerical modeling of electromagnetic welding. International Journal for Applied Electromagnetics and Mechanics, 2010, 32(1): 1–19 Xu Z, Cui J, Yu H, et al. Research on the impact velocity of magnetic impulse welding of pipe fitting. Materials & Design, 2013, 49: 736–745 Zhang Y, Babu S S, Prothe C, et al. Application of high velocity impact welding at varied different length scales. Journal of Materials Processing Technology, 2011, 211(5): 944–952 Kore S D, Date P P, Kulkarni S V. Electromagnetic impact welding of aluminum to stainless steel sheets. Journal of Materials Processing Technology, 2008, 208(1–3): 486–493 Kore S D, Imbert J, Worswick M J, et al. Electromagnetic impact welding of Mg to Al sheets. Science and Technology of Welding and Joining, 2009, 14(6): 549–553 Faes K, Baaten T, De Waele W, et al. Joining of copper to brass using magnetic pulse welding. In: Proceedings of 4th International Conference on High Speed Forming. Columbus, 2010, 84–96 Watanabe M, Kumai S. Interfacial morphology of magnetic pulse welded aluminum/aluminum and copper/copper lap joints. Journal of Japan Institute of Light Metals, 2009, 59(2): 140–147 (in Japanese) Psyk V, Risch D, Kinsey B L, et al. Electromagnetic forming—A review. Journal of Materials Processing Technology, 2011, 211(5): 787–829 Yu H, Xu Z, Fan Z, et al. Mechanical property and microstructure of aluminum alloy-steel tubes joint by magnetic pulse welding. Materials Science and Engineering A, 2013, 561: 259–265 Lee K J, Kumai S, Arai T, et al. Interfacial microstructure and strength of steel/aluminum alloy lap joint fabricated by magnetic pressure seam welding. Materials Science and Engineering A, 2007, 471(1–2): 95–101 Marya M, Marya S, Priem D. On the characteristics of electromagnetic welds between aluminum and other metals and alloys. Welding in the World, 2005, 49 (5): 74–84 Göbel G, Kaspar J, Herrmannsdörfer T, et al. Insights into intermetallic phases on pulse welded dissimilar metal joints. In: Proceedings of 4th International Conference on High Speed Forming. Columbus, 2010, 121–136 Kumar S, Kulkarni M R, Saroj P C, et al. Metallurgical and mechanical testing of electromagnetically welded copper and iron sample. In: Proceedings of 13th Asia-Pacific Conference on NDT. Bombay, 2013 Ben-Artzy A, Stern A, Frage N, et al. Wave formation mechanism in magnetic pulse welding. International Journal of Impact Engineering, 2010, 37(4): 397–404 Nassiri A, Chini G, Kinsey B. Spatial stability analysis of emergent wavy interfacial patterns in magnetic pulsed welding. CIRP Annals-Manufacturing Technology, 2014, 63: 245–248 Cui J, Sun G, Li G, et al. Specific wave interface and its formation during magnetic pulse welding. Applied Physics Letters, 2014, 105 (22): 221901-221901-4 Uhlmann E, Prasol L, Ziefle A. Potentials of pulse magnetic forming and joining. Advanced Materials Research, 2014, 907: 349–364 Lorenz A, Lueg-Althoff J, Göbel G, et al. Influence of axial workpiece positioning during magnetic pulse welding of aluminumsteel joints. In: Proceedings of 6th International Conference on High Speed Forming. 2014, 189–198 Aizawa T, Kashani M, Okagawa K. Application of magnetic pulse welding for aluminum alloys and SPCC steel sheet joints. Welding Journal, 2007, 86: 119s–124s Broeckhove J, Len W. Experimental research on magnetic pulse welding of dissimilar metals. Dissertation for the Master’s Degree. Ghent: Ghent University, 2009–2010 Nassiri A, Campbell C, Chini G, et al. Analytical model and experimental validation of single turn, axi-symmetric coil for electromagnetic forming and welding. Procedia Manufacturing, 2015, 1: 814–827 PROGRESS INDUSTRIAL SYSTEMS SA. Equipment and technology for magnetic pulsed processing of metals. http://www.progressindustrialsystems.ch/en/technology-and-equipment/magnetic-pulsed-processing-of-metals/ AUTOMOTIVE DESIGN and PRODUCTION. Welding mixed materials, multiple ways. http://www.autofieldguide.com/articles/welding-mixed-materials-multiple-ways Gary F. Benedict, Nontraditional Manufacturing Processes. Boca Raton: CRC Press, 1987, 103–123 Marré M, Brosius A, Tekkaya A E. Joining by compression and expansion of (none-) reinforced profiles. Advanced Materials Research, 2008, 43: 57–68 Rajawat R K, Desai S V, Kulkarni M R, et al. Electromagnetic forming—A technique with potential applications in accelerators. In: Proceedings of APAC 2014. Gyeongju, 2004, 187–189 ELMAG. EMF technology in the aerospace industry. http://www.elmaginc.com/emf-technology-in-aerospace/ Kochan A. Magnetic pulse welding shows potential for automotive applications. Assembly Automation, 2000, 20(2): 129–132