Abstract
Electrical and galvanomagnetic investigations were made on composite aluminum conductors, prepared by non-standard technology with sheath of industrial Al alloy. The multifilament conductor having a high electrical conductivity, has demonstrated stability during thermo-cycling, annealing, and the ability to recover conducting properties after deformation. Values of magnetoresistance in the strong magnetic fields did not differ much from the values, characteristic of pure Al, though field dependence deviated from linearity. The physical reasons of this dependence were analyzed.
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References
D.A. But, R.A. Glinik, V.E. Keilin, I.A. Kovalev, A.E. Larionov, V.A. Tutin, and V.N. Khazov, Experimental investigation of hyperconducting solenoid characteristics, Voprosy atomnoi nauki i techniki 10: 45 (1982).
V.I. Gostischev, The solenoid on 20 T with aluminum winding, cooled with liquid hydrogen, Voprosy atomnoi nauki i techniki 2: 10 (1985).
V.I. Gostischev, A.V. Vahobov, E.F. Golov, V.N. Matveev, and M.L. Havkin, The influence of alloying on galvanomagnetic and strength properties of aluminum at low temperatures, Fiz. Met. Metalloved. 60: 508(1985).
S. Kawata and T. Kino, Deviations from Matthiessen’s rule in dilute aluminium alloys, J.Phys. Soc.Japan. 39: 684(1975).
S.E. Demyanov, A.A. Drozd, D.V. Pashik and A.V. Petrov, Magnetic breakdown in Al-Y dilute alloys. Doklady Akademii Nauk Belarusi. 36: 426 (1992).
S.E. Demyanov, A.A. Drozd, A.V. Petrov, and M.L. Petrovskii, Magnetic field anisotropy of electron -impurity scattering in Al-Y alloys, J.of Phys.: Condens Matter. 7: 6271 (1995).
C.E. Oberly and J.C. Ho, The origin and future of composite aluminum conductors, Adv. Cryog. Eng. (Materials). 36: 645 (1990).
M.K. Premkumar, F.R. Billman, D.J. Chakrabarti, R.K. Dawless, and A.R. Austen, Composite aluminum conductor for high current density application at cryogenic temperatures, Adv.Cryog.Eng. (Materials). 36: 733(1990).
F.R. Fickett and C.A. Thompson, Anomalous magnetoresistance in Al/Al-alloy composite conductors, Adv. Cryog. Eng. (Materials). 36: 671(1990).
V.I. Gostischev, S.E. Demyanov, and M.L. Petrovskii, The use of recovery processes for increase of current carrying ability of cryoconducting aluminum, Fiz.Chim.Obrabotki Mater. 4: 119 (1987).
F.R. Fickett, Magnetoresistance of very pure polycrystalline aluminum, Phys.Rev. B3: 1941 (1971).
C.A. Thompson and F.R. Fickett, Magnetoresistance of multifilament Al/Al-alloy conductors. Adv. Cryog. Eng.Materials) 36: 663(1990).
P.W. Eckels and J.H. Parker Jr., Magnetoresistance in composite conductors, Adv.Cryog.Eng. (Materials). 36: 655 (1990).
P.W. Eckels, N.C. Iyer, A. Patterson, A.T. Male, J.H. Parker Jr., and J.W. Coltman, Magnetoresistance: the Hall effect in composite aluminum cryoconductors, Cryogenics, 29: 748 (1989).
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© 1996 Springer Science+Business Media New York
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Demyanov, S.E., Drozd, A.A., Petrov, A.V., Petrovskii, M.L. (1996). Galvanomagnetic Properties of Composite Aluminum Hyperconductors. In: Summers, L.T. (eds) Advances in Cryogenic Engineering Materials . Advances in Cryogenic Engineering Materials , vol 42. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-9059-7_142
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DOI: https://doi.org/10.1007/978-1-4757-9059-7_142
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