Thermal transport properties and microstructure of the solid Bi-Cu alloys

Manasijević, Dragan; Balanović, Ljubiša; Marković, Ivana; Ćosović, Vladan; Gorgievski, Milan; Stamenković, Uroš; Božinović, Kristina

doi:10.30544/841

Metall Mater Eng

2022

DOI: 10.30544/841

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Thermal transport properties and microstructure of the solid Bi-Cu alloys

Dragan Manasijević¹,

Ljubiša Balanović²,

Ivana Marković³

et al.

Abstract: Thermal transport properties of solid Bi-Cu alloys have been investigated over a wide composition range and temperature range ranging from 25 to 250 °C. The flash method was used to determine thermal diffusivity. Thermal diffusivity was discovered to decrease continuously with increasing temperature and bismuth content. The indirect Archimedean method was used to determine the density of the Bi-Cu alloys at 25 °C. The obtained results show that the density of the studied alloys decreases slightly as the copper… Show more

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2024

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Thermal conductivity and microstructure of Bi-Sb alloys

Manasijevic,

Milosevic,

Balanovic

et al. 2024

Hem Ind

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Four Bi-Sb alloys with compositions Bi79.6Sb20.4, Bi56.9Sb43.1, Bi39.8Sb60.2, Bi18.6Sb81.4 have been investigated regarding the microstructures and thermal properties. The microstructure was examined by scanning electron microscopy with energy-dispersive X-ray spectrometry. The light flash method was applied to determine thermal diffusivity and to obtain thermal conductivity in the temperature range 25 to 150?C, while the indirect Archimedean method was used for determination of densities of the investigated Bi-Sb alloys. The obtained results have shown that the density of the studied alloys decreased monotonically with increasing the antimony content. On the other hand, the specific heat capacity of Bi-Sb alloys increased with the increase in the antimony content as well as with increasing the temperature. Thermal diffusivity of the alloys increased slightly with increasing the temperature. Thermal conductivities of the examined Bi-Sb alloys were determined to be in the range of 3.8 to 7 W m-1 K-1, which is lower than thermal conductivities of pure bismuth and antimony. The results obtained in this work represent a contribution to better knowledge of the thermal properties of Bi-Sb alloys, which are of key importance for determining the possibility of their practical application.

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Thermal conductivity and microstructure of Bi-Sb alloys

Manasijevic,

Milosevic,

Balanovic

et al. 2024

Hem Ind

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Thermal transport properties and microstructure of the solid Bi-Cu alloys

Cited by 1 publication

References 17 publications

Thermal conductivity and microstructure of Bi-Sb alloys

Thermal conductivity and microstructure of Bi-Sb alloys

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