Changes in microstructure of metallurgicalgrade silicon during heating for fractional melting

C. B. Lee; J. H. Chung; J. W. Lee; H. E. Song; B. Y. Jang; J. S. Kim; W. Y. Yoon

doi:10.1179/1432891715Z.0000000001489

Changes in microstructure of metallurgicalgrade silicon during heating for fractional melting

C. B. Lee, J. H. Chung, J. W. Lee, H. E. Song, B. Y. Jang, J. S. Kim, W. Y. Yoon

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Fractional melting is a good method of refining metallurgical-grade silicon. It can be used to replace the traditional Siemens process for that purpose. It is important to observe the changes in the microstructure of silicon during heating to increase the efficiency of fractional melting. The microstructures and the chemical compositions of impurity phases in heated samples were observed by using scanning electron microscopy and wavelength dispersive spectroscopy. The affinities among the various impurities were investigated using the Miedema model. Ti and Al had strong affinities with V and Ca, respectively. It is possible to use elements that have strong affinities with B and P to effectively remove B and P from the silicon matrix, which are otherwise difficult to remove because of their high segregation coefficients.

Original language	English
Pages (from-to)	S1290-S1296
Journal	Materials Research Innovations
Volume	19
DOIs	https://doi.org/10.1179/1432891715Z.0000000001489
Publication status	Published - 2015 Apr 1

Bibliographical note

Publisher Copyright:
© W. S. Maney & Son Ltd 2015.

Keywords

Fractionalmelting
Microstructure
Phaseidentification
Purification
Silicide

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1179/1432891715Z.0000000001489

Cite this

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title = "Changes in microstructure of metallurgicalgrade silicon during heating for fractional melting",

abstract = "Fractional melting is a good method of refining metallurgical-grade silicon. It can be used to replace the traditional Siemens process for that purpose. It is important to observe the changes in the microstructure of silicon during heating to increase the efficiency of fractional melting. The microstructures and the chemical compositions of impurity phases in heated samples were observed by using scanning electron microscopy and wavelength dispersive spectroscopy. The affinities among the various impurities were investigated using the Miedema model. Ti and Al had strong affinities with V and Ca, respectively. It is possible to use elements that have strong affinities with B and P to effectively remove B and P from the silicon matrix, which are otherwise difficult to remove because of their high segregation coefficients.",

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AU - Lee, C. B.

AU - Chung, J. H.

AU - Lee, J. W.

AU - Song, H. E.

AU - Jang, B. Y.

AU - Kim, J. S.

AU - Yoon, W. Y.

PY - 2015/4/1

Y1 - 2015/4/1

N2 - Fractional melting is a good method of refining metallurgical-grade silicon. It can be used to replace the traditional Siemens process for that purpose. It is important to observe the changes in the microstructure of silicon during heating to increase the efficiency of fractional melting. The microstructures and the chemical compositions of impurity phases in heated samples were observed by using scanning electron microscopy and wavelength dispersive spectroscopy. The affinities among the various impurities were investigated using the Miedema model. Ti and Al had strong affinities with V and Ca, respectively. It is possible to use elements that have strong affinities with B and P to effectively remove B and P from the silicon matrix, which are otherwise difficult to remove because of their high segregation coefficients.

AB - Fractional melting is a good method of refining metallurgical-grade silicon. It can be used to replace the traditional Siemens process for that purpose. It is important to observe the changes in the microstructure of silicon during heating to increase the efficiency of fractional melting. The microstructures and the chemical compositions of impurity phases in heated samples were observed by using scanning electron microscopy and wavelength dispersive spectroscopy. The affinities among the various impurities were investigated using the Miedema model. Ti and Al had strong affinities with V and Ca, respectively. It is possible to use elements that have strong affinities with B and P to effectively remove B and P from the silicon matrix, which are otherwise difficult to remove because of their high segregation coefficients.

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KW - Microstructure

KW - Phaseidentification

KW - Purification

KW - Silicide

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Changes in microstructure of metallurgicalgrade silicon during heating for fractional melting

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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