Simulating tortuous 3D morphology of microporosity formed during solidification of Al-Si-Cu alloys

J. S. Wang; P. D. Lee

doi:10.1179/136404607X240580

Simulating tortuous 3D morphology of microporosity formed during solidification of Al-Si-Cu alloys

J. S. Wang, P. D. Lee

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

A three phase mesoscale model of the formation of microporosity, which solves for solute diffusion limited growth, was extended to multicomponent systems, including eutectic formation. Predictions for binary Al-Cu and Al-Si are compared to ternary Al-Si-Cu system. The threedimensional morphologies predicted by the mesomodel are compared to X-ray microtomographic observations of as cast microstructures. Owing to the interaction of the pores and the developing solid phases, the microporosity was predicted to have varying degrees of tortuousity as the alloying and processing conditions vary. To enable this comparison to be quantitative, measures of sphericity and tortuousity were developed. A good agreement was found between simulated and experimental results. The effect of changing both composition and solidification parameters is discussed. © 2007 W. S. Maney & Son Ltd.

Original language	English
Title of host publication	International Journal of Cast Metals Research\|Int. J. Cast Metals Res.
Pages	151-158
Number of pages	7
Volume	20
DOIs	https://doi.org/10.1179/136404607X240580
Publication status	Published - 2007

Keywords

Castings
Modelling
Multicomponent
Porosity
X-ray tomography

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10.1179/136404607X240580

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@inproceedings{53c31f97c7a748b9905ff9ef495726f5,

title = "Simulating tortuous 3D morphology of microporosity formed during solidification of Al-Si-Cu alloys",

abstract = "A three phase mesoscale model of the formation of microporosity, which solves for solute diffusion limited growth, was extended to multicomponent systems, including eutectic formation. Predictions for binary Al-Cu and Al-Si are compared to ternary Al-Si-Cu system. The threedimensional morphologies predicted by the mesomodel are compared to X-ray microtomographic observations of as cast microstructures. Owing to the interaction of the pores and the developing solid phases, the microporosity was predicted to have varying degrees of tortuousity as the alloying and processing conditions vary. To enable this comparison to be quantitative, measures of sphericity and tortuousity were developed. A good agreement was found between simulated and experimental results. The effect of changing both composition and solidification parameters is discussed. {\textcopyright} 2007 W. S. Maney & Son Ltd.",

keywords = "Castings, Modelling, Multicomponent, Porosity, X-ray tomography",

author = "Wang, {J. S.} and Lee, {P. D.}",

year = "2007",

doi = "10.1179/136404607X240580",

language = "English",

volume = "20",

pages = "151--158",

booktitle = "International Journal of Cast Metals Research|Int. J. Cast Metals Res.",

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TY - GEN

T1 - Simulating tortuous 3D morphology of microporosity formed during solidification of Al-Si-Cu alloys

AU - Wang, J. S.

AU - Lee, P. D.

PY - 2007

Y1 - 2007

N2 - A three phase mesoscale model of the formation of microporosity, which solves for solute diffusion limited growth, was extended to multicomponent systems, including eutectic formation. Predictions for binary Al-Cu and Al-Si are compared to ternary Al-Si-Cu system. The threedimensional morphologies predicted by the mesomodel are compared to X-ray microtomographic observations of as cast microstructures. Owing to the interaction of the pores and the developing solid phases, the microporosity was predicted to have varying degrees of tortuousity as the alloying and processing conditions vary. To enable this comparison to be quantitative, measures of sphericity and tortuousity were developed. A good agreement was found between simulated and experimental results. The effect of changing both composition and solidification parameters is discussed. © 2007 W. S. Maney & Son Ltd.

AB - A three phase mesoscale model of the formation of microporosity, which solves for solute diffusion limited growth, was extended to multicomponent systems, including eutectic formation. Predictions for binary Al-Cu and Al-Si are compared to ternary Al-Si-Cu system. The threedimensional morphologies predicted by the mesomodel are compared to X-ray microtomographic observations of as cast microstructures. Owing to the interaction of the pores and the developing solid phases, the microporosity was predicted to have varying degrees of tortuousity as the alloying and processing conditions vary. To enable this comparison to be quantitative, measures of sphericity and tortuousity were developed. A good agreement was found between simulated and experimental results. The effect of changing both composition and solidification parameters is discussed. © 2007 W. S. Maney & Son Ltd.

KW - Castings

KW - Modelling

KW - Multicomponent

KW - Porosity

KW - X-ray tomography

U2 - 10.1179/136404607X240580

DO - 10.1179/136404607X240580

M3 - Conference contribution

VL - 20

SP - 151

EP - 158

BT - International Journal of Cast Metals Research|Int. J. Cast Metals Res.

ER -

Simulating tortuous 3D morphology of microporosity formed during solidification of Al-Si-Cu alloys

Abstract

Keywords

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