Dependency of the thermal and electrical conductivity on the temperature and composition of Cu in the Al based Al–Cu alloys

The variations of thermal conductivity with temperature for Al–[ x] wt.% Cu, x = 3, 6, 15 and 24 alloys were measured by using a radial heat flow apparatus. The variations of electrical conductivity of solid phases versus temperature for the same alloys were determined from the Wiedemann–Franz and S...

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Veröffentlicht in:	Experimental thermal and fluid science 2010-11, Vol.34 (8), p.1507-1516
Hauptverfasser:	Aksöz, S., Ocak, Y., Maraşlı, N., Çadirli, E., Kaya, H., Böyük, U.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys ALUMINUM ALLOYS (50 TO 99 AL) Aluminum base alloys Condensed matter: electronic structure, electrical, magnetic, and optical properties Copper COPPER ALUMINUM ALLOYS Electrical and thermal conduction in amorphous and liquid metals and alloys Electrical conductivity Electrical resistivity Electronic conduction in metals and alloys Electronic transport in condensed matter Enthalpy Exact sciences and technology Heat transfer Physics Resistivity SPECIFIC HEAT Temperature coefficients Thermal conductivity WIEDEMANN FRANZ RATIO
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creator	Aksöz, S. Ocak, Y. Maraşlı, N. Çadirli, E. Kaya, H. Böyük, U.
description	The variations of thermal conductivity with temperature for Al–[ x] wt.% Cu, x = 3, 6, 15 and 24 alloys were measured by using a radial heat flow apparatus. The variations of electrical conductivity of solid phases versus temperature for the same alloys were determined from the Wiedemann–Franz and Smith–Palmer equations by using the measured values of thermal conductivity. From the graphs of thermal and electrical conductivity versus temperature, the thermal conductivity of the solid phases at their melting temperatures, and the thermal temperature and the electrical coefficients for the same alloys were obtained. Dependency of the thermal and electrical conductivity on the composition of Cu in the Al based Al−Cu alloys were also investigated. According to present experimental results, the thermal and electrical conductivity of Al–[ x] wt.% Cu, x = 3, 6, 15 and 24 alloys linearly decrease with increasing the temperature and composition of Cu. The enthalpy of fusion and the specific heat change during the transformation for the same alloys were determined from cooling trace during the transformation from eutectic liquid to eutectic solid by means of differential scanning calorimeter (DSC).
doi_str_mv	10.1016/j.expthermflusci.2010.07.015
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The variations of electrical conductivity of solid phases versus temperature for the same alloys were determined from the Wiedemann–Franz and Smith–Palmer equations by using the measured values of thermal conductivity. From the graphs of thermal and electrical conductivity versus temperature, the thermal conductivity of the solid phases at their melting temperatures, and the thermal temperature and the electrical coefficients for the same alloys were obtained. Dependency of the thermal and electrical conductivity on the composition of Cu in the Al based Al−Cu alloys were also investigated. According to present experimental results, the thermal and electrical conductivity of Al–[ x] wt.% Cu, x = 3, 6, 15 and 24 alloys linearly decrease with increasing the temperature and composition of Cu. 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The variations of electrical conductivity of solid phases versus temperature for the same alloys were determined from the Wiedemann–Franz and Smith–Palmer equations by using the measured values of thermal conductivity. From the graphs of thermal and electrical conductivity versus temperature, the thermal conductivity of the solid phases at their melting temperatures, and the thermal temperature and the electrical coefficients for the same alloys were obtained. Dependency of the thermal and electrical conductivity on the composition of Cu in the Al based Al−Cu alloys were also investigated. According to present experimental results, the thermal and electrical conductivity of Al–[ x] wt.% Cu, x = 3, 6, 15 and 24 alloys linearly decrease with increasing the temperature and composition of Cu. 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subjects	Alloys ALUMINUM ALLOYS (50 TO 99 AL) Aluminum base alloys Condensed matter: electronic structure, electrical, magnetic, and optical properties Copper COPPER ALUMINUM ALLOYS Electrical and thermal conduction in amorphous and liquid metals and alloys Electrical conductivity Electrical resistivity Electronic conduction in metals and alloys Electronic transport in condensed matter Enthalpy Exact sciences and technology Heat transfer Physics Resistivity SPECIFIC HEAT Temperature coefficients Thermal conductivity WIEDEMANN FRANZ RATIO
title	Dependency of the thermal and electrical conductivity on the temperature and composition of Cu in the Al based Al–Cu alloys
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