Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V)

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V). / Zhou, Yuli; Zhang, Xun; Zhong, Gu et al.
in: Journal of alloys and compounds, Jahrgang 907.2022, Nr. 25 June, 164446, 25.06.2022.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Zhou, Y, Zhang, X, Zhong, G, Zhang, J, Yang, Y, Kang, D, Li, H, Jie, W, Schumacher, P & LI, J 2022, 'Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V)', Journal of alloys and compounds, Jg. 907.2022, Nr. 25 June, 164446. https://doi.org/10.1016/j.jallcom.2022.164446

APA

Zhou, Y., Zhang, X., Zhong, G., Zhang, J., Yang, Y., Kang, D., Li, H., Jie, W., Schumacher, P., & LI, J. (2022). Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V). Journal of alloys and compounds, 907.2022(25 June), Artikel 164446. https://doi.org/10.1016/j.jallcom.2022.164446

Vancouver

Zhou Y, Zhang X, Zhong G, Zhang J, Yang Y, Kang D et al. Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V). Journal of alloys and compounds. 2022 Jun 25;907.2022(25 June):164446. Epub 2022 Mär 7. doi: 10.1016/j.jallcom.2022.164446

Author

Zhou, Yuli ; Zhang, Xun ; Zhong, Gu et al. / Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V). in: Journal of alloys and compounds. 2022 ; Jahrgang 907.2022, Nr. 25 June.

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@article{2b0cba98e6734edfbcc7eb36c3dd4d2c,
title = "Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V)",
abstract = "The effects of trace transition elements (Mn, Cr, V) on the solidification microstructure and the thermal conductivity of Al-9Si based alloys have been investigated. It was found that the effect of Mn, Cr, V on the solidification behavior and solidification microstructure is mainly related to α-Al grains via affecting heterogeneous nucleation and growth restriction, while no significant effect on the solidification behavior and microstructure of eutectic Si was observed. Compared with factors including grain size of α-Al and morphology characteristics (e.g. size, spacing, and shape factor) of eutectic Si, the solid solubility in Al matrix is confirmed to be one of the most important factors affecting thermal conductivity. Due to the larger partition coefficient of V compared with Cr and Mn, the solid solubility and the lattice distortion of α-Al in Al-9Si-xV alloy were increased significantly, thus the thermal conductivity of alloy was decreased steeply from 171.7 to 152.3 W/m·K with the content of V increasing from 15 to 1010 ppm. A linearly fitted curve reflecting the relationship between the content of the transition elements and the thermal conductivity of alloys has been proposed, which can be used to optimize the alloy composition in subsequent remelting or recycling process. Furthermore, two thermal conductivity models (H-S model and Maxwell model) also have been used to evaluate the effect of Mn, Cr, V on thermal conductivity, in which the thermal conductivity of α-Al was corrected based on the measured solid solubility. In this way, the data correlation between the experimental and fitted value based on H-S model and Maxwell model is increased from 0.18 to 0.96. These obtained results could be helpful to precisely control the composition and further improve the thermal conductivity of Al-Si based alloy during the primary production and / or recycling process.",
author = "Yuli Zhou and Xun Zhang and Gu Zhong and Junchao Zhang and Yang Yang and Du Kang and Hutian Li and Wanqi Jie and Peter Schumacher and Jiehua LI",
note = "Publisher Copyright: {\textcopyright} 2022 Elsevier B.V.",
year = "2022",
month = jun,
day = "25",
doi = "10.1016/j.jallcom.2022.164446",
language = "English",
volume = "907.2022",
journal = "Journal of alloys and compounds",
issn = "0925-8388",
publisher = "Elsevier",
number = "25 June",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Elucidating thermal conductivity mechanism of Al-9Si based alloys with trace transition elements (Mn, Cr, V)

AU - Zhou, Yuli

AU - Zhang, Xun

AU - Zhong, Gu

AU - Zhang, Junchao

AU - Yang, Yang

AU - Kang, Du

AU - Li, Hutian

AU - Jie, Wanqi

AU - Schumacher, Peter

AU - LI, Jiehua

N1 - Publisher Copyright: © 2022 Elsevier B.V.

PY - 2022/6/25

Y1 - 2022/6/25

N2 - The effects of trace transition elements (Mn, Cr, V) on the solidification microstructure and the thermal conductivity of Al-9Si based alloys have been investigated. It was found that the effect of Mn, Cr, V on the solidification behavior and solidification microstructure is mainly related to α-Al grains via affecting heterogeneous nucleation and growth restriction, while no significant effect on the solidification behavior and microstructure of eutectic Si was observed. Compared with factors including grain size of α-Al and morphology characteristics (e.g. size, spacing, and shape factor) of eutectic Si, the solid solubility in Al matrix is confirmed to be one of the most important factors affecting thermal conductivity. Due to the larger partition coefficient of V compared with Cr and Mn, the solid solubility and the lattice distortion of α-Al in Al-9Si-xV alloy were increased significantly, thus the thermal conductivity of alloy was decreased steeply from 171.7 to 152.3 W/m·K with the content of V increasing from 15 to 1010 ppm. A linearly fitted curve reflecting the relationship between the content of the transition elements and the thermal conductivity of alloys has been proposed, which can be used to optimize the alloy composition in subsequent remelting or recycling process. Furthermore, two thermal conductivity models (H-S model and Maxwell model) also have been used to evaluate the effect of Mn, Cr, V on thermal conductivity, in which the thermal conductivity of α-Al was corrected based on the measured solid solubility. In this way, the data correlation between the experimental and fitted value based on H-S model and Maxwell model is increased from 0.18 to 0.96. These obtained results could be helpful to precisely control the composition and further improve the thermal conductivity of Al-Si based alloy during the primary production and / or recycling process.

AB - The effects of trace transition elements (Mn, Cr, V) on the solidification microstructure and the thermal conductivity of Al-9Si based alloys have been investigated. It was found that the effect of Mn, Cr, V on the solidification behavior and solidification microstructure is mainly related to α-Al grains via affecting heterogeneous nucleation and growth restriction, while no significant effect on the solidification behavior and microstructure of eutectic Si was observed. Compared with factors including grain size of α-Al and morphology characteristics (e.g. size, spacing, and shape factor) of eutectic Si, the solid solubility in Al matrix is confirmed to be one of the most important factors affecting thermal conductivity. Due to the larger partition coefficient of V compared with Cr and Mn, the solid solubility and the lattice distortion of α-Al in Al-9Si-xV alloy were increased significantly, thus the thermal conductivity of alloy was decreased steeply from 171.7 to 152.3 W/m·K with the content of V increasing from 15 to 1010 ppm. A linearly fitted curve reflecting the relationship between the content of the transition elements and the thermal conductivity of alloys has been proposed, which can be used to optimize the alloy composition in subsequent remelting or recycling process. Furthermore, two thermal conductivity models (H-S model and Maxwell model) also have been used to evaluate the effect of Mn, Cr, V on thermal conductivity, in which the thermal conductivity of α-Al was corrected based on the measured solid solubility. In this way, the data correlation between the experimental and fitted value based on H-S model and Maxwell model is increased from 0.18 to 0.96. These obtained results could be helpful to precisely control the composition and further improve the thermal conductivity of Al-Si based alloy during the primary production and / or recycling process.

UR - http://www.scopus.com/inward/record.url?scp=85125859968&partnerID=8YFLogxK

U2 - 10.1016/j.jallcom.2022.164446

DO - 10.1016/j.jallcom.2022.164446

M3 - Article

VL - 907.2022

JO - Journal of alloys and compounds

JF - Journal of alloys and compounds

SN - 0925-8388

IS - 25 June

M1 - 164446

ER -

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