Effect of Ca and P on the Size and Morphology of Eutectic Mg2Si in High-Purity Al-Mg-Si Alloys

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Effect of Ca and P on the Size and Morphology of Eutectic Mg2Si in High-Purity Al-Mg-Si Alloys. / Zarif, Muhammad Zafar; Spacil, Ivo; Pabel, Thomas et al.
In: Metals : open access journal , Vol. 13.2023, No. 4, 784, 17.04.2023.

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@article{752cadb747914e8eb56284489bd75e1e,
title = "Effect of Ca and P on the Size and Morphology of Eutectic Mg2Si in High-Purity Al-Mg-Si Alloys",
abstract = "Controlling the size and morphology of primary and eutectic Mg2Si phase via modification and refinement (i.e., Ca and P addition) in Al-Mg2Si-based alloys containing higher percentages of Si and Mg is of great necessity to ensure their high performance. The present investigation is mainly aimed to elucidate the effect of Ca and P on the nucleation and growth pattern of eutectic Mg2Si in high-purity Al-13.1 wt.% Mg2Si near-eutectic alloys with and without the additions of P and Ca. It was found that purity levels of raw starting materials exert a significant influence on the size and morphology of the near-binary eutectic Al-Mg2Si. The presence of P suppresses the precipitation of ternary eutectic Al-Mg2Si-Si. The presence of low levels of Ca promotes the faceted growth of Mg2Si, while at sufficiently higher levels of Ca, Al2Si2Ca intermetallic is formed and the morphology of the Mg2Si phase is changed from fibers/or globules to blocks or plates. The current investigation is of great importance for the further development of high-performance Al-Mg2Si-based cast alloys.",
author = "Zarif, {Muhammad Zafar} and Ivo Spacil and Thomas Pabel and Peter Schumacher and Jiehua LI",
year = "2023",
month = apr,
day = "17",
doi = "10.3390/met13040784",
language = "English",
volume = "13.2023",
journal = "Metals : open access journal ",
issn = "2075-4701",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "4",

}

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TY - JOUR

T1 - Effect of Ca and P on the Size and Morphology of Eutectic Mg2Si in High-Purity Al-Mg-Si Alloys

AU - Zarif, Muhammad Zafar

AU - Spacil, Ivo

AU - Pabel, Thomas

AU - Schumacher, Peter

AU - LI, Jiehua

PY - 2023/4/17

Y1 - 2023/4/17

N2 - Controlling the size and morphology of primary and eutectic Mg2Si phase via modification and refinement (i.e., Ca and P addition) in Al-Mg2Si-based alloys containing higher percentages of Si and Mg is of great necessity to ensure their high performance. The present investigation is mainly aimed to elucidate the effect of Ca and P on the nucleation and growth pattern of eutectic Mg2Si in high-purity Al-13.1 wt.% Mg2Si near-eutectic alloys with and without the additions of P and Ca. It was found that purity levels of raw starting materials exert a significant influence on the size and morphology of the near-binary eutectic Al-Mg2Si. The presence of P suppresses the precipitation of ternary eutectic Al-Mg2Si-Si. The presence of low levels of Ca promotes the faceted growth of Mg2Si, while at sufficiently higher levels of Ca, Al2Si2Ca intermetallic is formed and the morphology of the Mg2Si phase is changed from fibers/or globules to blocks or plates. The current investigation is of great importance for the further development of high-performance Al-Mg2Si-based cast alloys.

AB - Controlling the size and morphology of primary and eutectic Mg2Si phase via modification and refinement (i.e., Ca and P addition) in Al-Mg2Si-based alloys containing higher percentages of Si and Mg is of great necessity to ensure their high performance. The present investigation is mainly aimed to elucidate the effect of Ca and P on the nucleation and growth pattern of eutectic Mg2Si in high-purity Al-13.1 wt.% Mg2Si near-eutectic alloys with and without the additions of P and Ca. It was found that purity levels of raw starting materials exert a significant influence on the size and morphology of the near-binary eutectic Al-Mg2Si. The presence of P suppresses the precipitation of ternary eutectic Al-Mg2Si-Si. The presence of low levels of Ca promotes the faceted growth of Mg2Si, while at sufficiently higher levels of Ca, Al2Si2Ca intermetallic is formed and the morphology of the Mg2Si phase is changed from fibers/or globules to blocks or plates. The current investigation is of great importance for the further development of high-performance Al-Mg2Si-based cast alloys.

U2 - 10.3390/met13040784

DO - 10.3390/met13040784

M3 - Article

VL - 13.2023

JO - Metals : open access journal

JF - Metals : open access journal

SN - 2075-4701

IS - 4

M1 - 784

ER -