Study of the Influence of Heat Treatment on the Structure and Properties of Aluminum-Copper Multilayer Systems

Dmitri  Pronichev; Leonid Moiseevich Gurevich; Oleg V. Slautin; Aleksey  Serov

doi:10.4028/www.scientific.net/SSP.299.66

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Study of the Influence of Heat Treatment on the Structure and Properties of Aluminum-Copper Multilayer Systems

Abstract:

Multilayer intermetallic composite materials of the aluminum-copper system are obtained using a complex technology, including explosion welding, rolling and diffusion heat treatment. The structure, composition and properties of the obtained 9 and 15-layer systems were studied and it was shown that the applied technology makes it possible to obtain qualitative multilayer systems with a large proportion of intermetallide phases, that have properties that are significantly different from the base metals, which makes it possible to expand significantly the areas of application of aluminum composites-copper.

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Periodical:

Solid State Phenomena (Volume 299)

Pages:

66-71

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.299.66

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Online since:

January 2020

Authors:

Dmitri Pronichev*, Leonid Moiseevich Gurevich, Oleg V. Slautin, Aleksey Serov

Keywords:

Aluminum-Copper System, Intermetallic Composite, Properties, Structure

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References

[1] W.E. Veerkamp, Copper-to-aluminum transitions in high direct-current bus systems, Record of Conference Papers - Annual Petroleum and Chemical Industry Conference, (1995) 187-195.

DOI: 10.1109/pcicon.1995.523953

Google Scholar

[2] Y. Oda, M. Ishio, A. Hashimoto, K. Ikeuchi, US Patent 20130071686, (2011).

Google Scholar

[3] Y. Wang, M. Sun, W. Yang, Application of the Explosive Welding Technology to Manufacture Al-Cu CPU Cooler, Proceedings of the 2003 International Autumn Seminar on Propellants, Explosives and Pyrotechnics (2003 IASPEP), Theory and Practice of Energetic Materials, 5 (2003) 1118-1121.

Google Scholar

[4] M. Abbasi, A. Karimi Taheri, M.T. Salehi, Growth rate of intermetallic compounds in Al/Cu bimetal produced by cold roll welding process, Journal of Alloys and Compounds. Vol.319(1-2), 233-241.

DOI: 10.1016/s0925-8388(01)00872-6

Google Scholar

[5] M. Acarer, Electrical, corrosion, and mechanical properties of aluminum-copper joints produced by explosive welding, Journal of Materials Engineering and Performance, Vol.1 (11), 2375-2379.

DOI: 10.1007/s11665-012-0203-6

Google Scholar

[6] M. Honarpisheh, M. Asemabadi, M. Sedighi, Investigation of annealing treatment on the interfacial properties of explosive-welded Al/Cu/Al multilayer, Materials and Design, 37 (2011) 122-127.

DOI: 10.1016/j.matdes.2011.12.045

Google Scholar

[7] W.-B. Lee, K.-S. Bang, S.-B. Jung, Effects of intermetallic compound on the electrical and mechanical properties of friction welded Cu/Al bimetallic joints during annealing, Journal of Alloys and Compounds. Vol.390(1-2) (2004)212-219.

DOI: 10.1016/j.jallcom.2004.07.057

Google Scholar

[8] R. Uscinowicz, Impact of temperature on shear strength of single lap Al-Cu bimetallic joint // Composites Part B: Engineering. Vol.44(1) (2012) 344-356.

DOI: 10.1016/j.compositesb.2012.04.073

Google Scholar

[9] L.M. Gurevich, Yu.P. Trykov, D.V. Pronichev, M.D. Trunov, K.M. Zemtsova, Investigation of the thermal conductivity of a copper-aluminum composite welded by explosion, Izvestiya Volgograd State Technical University. 5 (2013) 30-34.

Google Scholar

[10] Influence of the strain-hardened zones and intermetallic layers of the film, welded and heat-treated al / cum laminated metal composites on the evolution of the thermal conductivity coefficient, Medziagotyra, 20(3) (2014) 267-270.

DOI: 10.5755/j01.ms.20.3.4602

Google Scholar

[11] L.N. Larikov, V.R. Ryabov, V.М. Falchenko, Diffusion processes in the solid phase during welding. Moscow, Mashinostroenie, (1975).

Google Scholar

[12] Yu.P. Trikov, D.V. Pronichev, L.M. Gurevich, A.V. Volchkov, Thermal conductivity of a copper-aluminum composite, Technology of metals, 7 (2007) 31-35.

Google Scholar

[13] D.V. Pronichev, L.M. Gurevich, Yu.P. Trikov, M.D. Trunov, Investigation of the intermetallic coating on aluminum-copper bimetal obtained by contact melting, Material Science, 8 (2015) 45-49.

Google Scholar