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Lasers in Manufacturing and Materials Processing

Erschienen in:

04.12.2017

Joining of Aluminium Alloy and Steel by Laser Assisted Reactive Wetting

verfasst von: Gerhard Liedl, Rodrigo Gómez Vázquez, Serguei P. Murzin

Erschienen in: Lasers in Manufacturing and Materials Processing | Ausgabe 1/2018

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Abstract

Compounds of dissimilar materials, like aluminium and steel offer an interesting opportunity for the automotive industry to reduce the weight of a car body. Thermal joining of aluminium and steel leads to the formation of brittle intermetallic compounds, which negatively affects the properties of the welded joint. Amongst others, growth of such intermetallic compounds depends on maximum temperature and on the time at certain temperatures. Laser welding with its narrow well seam and its fast heating and cooling cycles provides an excellent opportunity to obtain an ultrathin diffusion zone. Joining of sheet metal DC01 with aluminium alloy AW6016 has been chosen for research. The performed experimental studies showed that by a variation of the beam power and scanning speed it is possible to obtain an ultrathin diffusion zone with narrow intermetallic interlayers. With the aim of supporting further investigation of laser welding of the respective and other dissimilar pairings a multi-physical simulation model has been developed.

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Seffer, O., Pfeifer, R., Springer, A., Kaierle, S.: Investigations on laser beam welding of different dissimilar joints of steel and aluminum alloys for automotive lightweight construction. Phys. Procedia. 83, 383–395 (2016)CrossRef

Zhang, M., Chen, G., Li, S., Mei, L., Zhang, Z.: Experimental investigation on fiber laser overlap welding of automotive aluminum to galvanized steel. Zhongguo Jiguang/Chin. J. Lasers. 38(6), 0603010 (2011)

Pardal, G., Meco, S., Dunn, A., Williams, S., Ganguly, S., Hand, D.P., Wlodarczyk, K.L.: Laser spot welding of laser textured steel to aluminium. J. Mater. Process. Technol. 241, 24–35 (2017)CrossRef

Kashani, H.T., Kah, P., Martikainen, J.: Laser overlap welding of zinc-coated steel on aluminum alloy. Phys. Procedia. 78, 265–271 (2015)CrossRef

Meco, S., Pardal, G., Ganguly, S., Williams, S., McPherson, N.: Application of laser in seam welding of dissimilar steel to aluminium joints for thick structural components. Opt. Lasers. Eng. 67, 22–30 (2015)CrossRef

Wang, P., Chen, X., Pan, Q., Madigan, B., Long, J.: Laser welding dissimilar materials of aluminum to steel: an overview. Int. J. Adv. Manuf. Technol. 87(9–12), 3081–3090 (2016)CrossRef

Hong, K.-M., Shin, Y.C.: Prospects of laser welding technology in the automotive industry: a review. J. Mater. Process. Technol. 245, 46–69 (2017)CrossRef

Fan, J., Thomy, C., Vollertsen, F.: Effect of thermal cycle on the formation of intermetallic compounds in laser welding of aluminum-steel overlap joints. Phys. Procedia. 12(PART 1), 134–141 (2011)CrossRef

Otto, A., Schmidt, M.: Towards a universal numerical simulation model for laser material processing. Phys. Procedia. 5(A), 35–46 (2010)CrossRef

10.

Borrisutthekul, R., Yachi, T., Miyashita, Y., Mutoh, Y.: Suppression of intermetallic reaction layer formation by controlling heat flow in dissimilar joining of steel and aluminum alloy. Mater. Sci. Eng. A. 467(1–2), 108–113 (2007)CrossRef

11.

Mukherjee, S., Chakraborty, S., Galun, R., Estrin, Y., Manna, I.: Transport phenomena in conduction mode laser beam welding of Fe-al dissimilar couple with ta diffusion barrier. Int. J. Heat. Mass. Transf. 53(23–24), 5274–5282 (2010)CrossRefMATH

12.

Tomashchuk, I., Sallamand, P., Jouvard, J.M., Grevey, D.: The simulation of morphology of dissimilar copper-steel electron beam welds using level set method. Comput. Mater. Sci. 48(4), 827–836 (2010)CrossRef

13.

Hu, Y., He, X., Yu, G., Ge, Z., Zheng, C., Ning, W.: Heat and mass transfer in laser dissimilar welding of stainless steel and nickel. Appl. Surf. Sci. 258(15), 5914–5922 (2012)CrossRef

14.

Peyre, P., Sierra, G., Deschaux-Beaume, F., Stuart, D., Fras, G.: Generation of aluminium-steel joints with laser-induced reactive wetting. Mater. Sci. Eng. A. 444(1–2), 327–338 (2007)CrossRef

15.

Koch, H., Vázquez, R.G., Otto, A.: A multiphysical simulation model for laser based manufacturing. ECCOMAS 2012 - European Congress on Computational Methods in Applied Sciences and Engineering, e-Book Full, 6709–6722 (2012)

16.

Otto, A., Koch, H., Vazquez, R.G.: Simulation of laser material processing. Phys. Procedia. 39, 843–852 (2012)CrossRef

17.

Otto, A., Koch, H., Vázquez, R.G., Lin, Z., Hainsey, B.: Multiphysical simulation of ns-laser ablation of multi-material LED-structures. Phys. Procedia. 56, 1315–1324 (2014)CrossRef

18.

Vázquez, R.G., Koch, H.M., Otto, A.: Multi-physical simulation of laser welding. Phys. Procedia. 56, 1334–1342 (2014)CrossRef

19.

Liedl, G., Bielak, R., Ivanova, J., Enzinger, N., Figner, G., Bruckner, J., Pasic, H., Pudar, M., Hampel, S.: Joining of aluminum and steel in car body manufacturing. Phys. Procedia. 12(PART 1), 150–156 (2011)CrossRef

20.

Otto, A., Ebert, R. Simulationsgestützte Analyse des Übergangs zwischen Laser-strahlschweißen und –abtragsschneiden. Journal of the University of Applied Sciences Mittweida 4, 56–59 (2015) – in German Language

21.

Otto, A., Patschger, A., Seiler, M.: Numerical and experimental investigations of humping phenomena in laser micro welding. Phys. Procedia. 83, 1415–1423 (2016)CrossRef

22.

Deshpande, S.S., Anumolu, L., Trujillo, M.F.: Evaluating the performance of the two-phase flow solver interFoam. Comput. Sci. Discovery. 5(014016), 36pp (2012)

23.

Tatra, S., Vázquez, R.G., Stiglbrunner, C., Otto, A.: Numerical simulation of laser ablation with short and ultra-short pulses for metals and semiconductors. Phys Procedia. 83, 1339–1346 (2016)CrossRef

24.

Voller, V.R., Cross, M., Markatos, N.C.: An enthalpy method for convection/diffusion phase change. Int. J. Numer. Methods. Eng. 24(1), 271–284 (1987)CrossRefMATH

25.

Sina, H., Corneliusson, J., Turba, K., Iyengar, S.: A study on the formation of iron aluminide (FeAl) from elemental powders. J. Alloys. Compd. 636, 261–269 (2015)CrossRef

26.

Bouayad, A., Gerometta, C., Belkebir, A., Ambari, A.: Kinetic interactions between solid iron and molten aluminium. Mater. Sci. Eng. A. 363(1–2), 53–61 (2003)CrossRef

27.

Jindal, V., Srivastava, V.C.: Growth of intermetallic layer at roll bonded IF-steel/aluminum interface. J. Mater. Process. Technol. 195(1–3), 88–93 (2008)CrossRef

28.

Bouché, K., Barbier, F., Coulet, A.: Intermetallic compound layer growth between solid iron and molten aluminium. Mater. Sci. Eng. A. 249(1–2), 167–175 (1998)CrossRef

29.

Novák, P., Michalcová, A., Marek, I., Mudrová, M., Saksl, K., Bednarčík, J., Zikmund, P., Vojtěch, D.: On the formation of intermetallics in Fe-al system – an in situ XRD study. Intermetallics. 32, 127–136 (2013)CrossRef

30.

Heitjans, P., Kärger, J.: Diffusion in Condensed Matter: Methods, Materials, Models. Springer-Verlag, Berlin, Heidelberg (2006)

31.

Du, Y., Chang, Y.A., Huang, B., Gong, W., Jin, Z., Xu, H., Yuan, Z., Liu, Y., He, Y., Xie, F.-Y.: Diffusion coefficients of some solutes in fcc and liquid al: critical evaluation and correlation. Mater. Sci. Eng. A. 363, 140–151 (2003)CrossRef

32.

Shahverdi, H.R., Ghomashchi, M.R., Shabestari, S., Hejazi, J.: Microstructural analysis of interfacial reaction between molten aluminium and solid iron. J. Mater. Process. Technol. 124(3), 345–352 (2002)CrossRef

Titel: Joining of Aluminium Alloy and Steel by Laser Assisted Reactive Wetting
verfasst von: Gerhard Liedl
Rodrigo Gómez Vázquez
Serguei P. Murzin
Publikationsdatum: 04.12.2017
Verlag: Springer US
Erschienen in: Lasers in Manufacturing and Materials Processing / Ausgabe 1/2018
Print ISSN: 2196-7229
Elektronische ISSN: 2196-7237
DOI: https://doi.org/10.1007/s40516-017-0049-8

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