Effects of high static magnetic field on distribution of solid particles in BiZn immiscible alloys with metastable miscibility gap

Effects of high static magnetic field on distribution of solid particles in BiZn immiscible alloys with metastable miscibility gap

•Immiscible alloys without any segregation were manufactured under 29T of HSMF.•Stokes and Marangoni movement led to the segregation under HSMF lower than 17.4T.•Microstructures of 29T depended on nucleation, growth and Marangoni migration.•Stokes sedimentation was completely suppressed at 29T of HS...

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Veröffentlicht in:Journal of alloys and compounds 2015-02, Vol.623, p.36-41
Hauptverfasser: Zheng, T.X., Zhong, Y.B., Lei, Z.S., Ren, W.L., Ren, Z.M., Debray, F., Beaugnon, E., Fautrelle, Y.
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Chemical Sciences
Droplets
Fluid flow
High magnetic fields
Immiscible alloys
In-situ quenching
Liquids
Magnetic fields
Material chemistry
Microstructure
Migration
Miscibility gap
Sedimentation
Segregation
Segregations
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container_end_page 41
container_issue
container_start_page 36
container_title Journal of alloys and compounds
container_volume 623
creator Zheng, T.X.
Zhong, Y.B.
Lei, Z.S.
Ren, W.L.
Ren, Z.M.
Debray, F.
Beaugnon, E.
Fautrelle, Y.
description •Immiscible alloys without any segregation were manufactured under 29T of HSMF.•Stokes and Marangoni movement led to the segregation under HSMF lower than 17.4T.•Microstructures of 29T depended on nucleation, growth and Marangoni migration.•Stokes sedimentation was completely suppressed at 29T of HSMF. Compositions located in the metastable miscibility gap of BiZn immiscible alloy was investigated under the effect of high static magnetic field (HSMF). BiZn immiscible alloys with uniformly distribution of solid particles in the matrix were obtained under HSMF with 29T. It is found that the solid Bi particles were uniformly distributed in the matrix because of complete suppression of Stokes sedimentation under the effect of HSMF with 29T. Slight segregation caused by Marangoni migration still remained at the edge of ingot solidified under 29T. Segregation in the alloys solidified under 0T, 1T and 6T was mainly owning to Stokes sedimentation, but that solidified under 17.4T and 29T was controlled by nucleation, growth and Marangoni migration processes of liquid droplets. The segregation mechanism under the effects of HSMF was discussed.
doi_str_mv 10.1016/j.jallcom.2014.10.095
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Compositions located in the metastable miscibility gap of BiZn immiscible alloy was investigated under the effect of high static magnetic field (HSMF). BiZn immiscible alloys with uniformly distribution of solid particles in the matrix were obtained under HSMF with 29T. It is found that the solid Bi particles were uniformly distributed in the matrix because of complete suppression of Stokes sedimentation under the effect of HSMF with 29T. Slight segregation caused by Marangoni migration still remained at the edge of ingot solidified under 29T. Segregation in the alloys solidified under 0T, 1T and 6T was mainly owning to Stokes sedimentation, but that solidified under 17.4T and 29T was controlled by nucleation, growth and Marangoni migration processes of liquid droplets. 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Compositions located in the metastable miscibility gap of BiZn immiscible alloy was investigated under the effect of high static magnetic field (HSMF). BiZn immiscible alloys with uniformly distribution of solid particles in the matrix were obtained under HSMF with 29T. It is found that the solid Bi particles were uniformly distributed in the matrix because of complete suppression of Stokes sedimentation under the effect of HSMF with 29T. Slight segregation caused by Marangoni migration still remained at the edge of ingot solidified under 29T. Segregation in the alloys solidified under 0T, 1T and 6T was mainly owning to Stokes sedimentation, but that solidified under 17.4T and 29T was controlled by nucleation, growth and Marangoni migration processes of liquid droplets. 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Compositions located in the metastable miscibility gap of BiZn immiscible alloy was investigated under the effect of high static magnetic field (HSMF). BiZn immiscible alloys with uniformly distribution of solid particles in the matrix were obtained under HSMF with 29T. It is found that the solid Bi particles were uniformly distributed in the matrix because of complete suppression of Stokes sedimentation under the effect of HSMF with 29T. Slight segregation caused by Marangoni migration still remained at the edge of ingot solidified under 29T. Segregation in the alloys solidified under 0T, 1T and 6T was mainly owning to Stokes sedimentation, but that solidified under 17.4T and 29T was controlled by nucleation, growth and Marangoni migration processes of liquid droplets. The segregation mechanism under the effects of HSMF was discussed.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2014.10.095</doi><tpages>6</tpages><orcidid>https://orcid.org/0009-0000-9810-6695</orcidid></addata></record>
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source Elsevier ScienceDirect Journals Complete
subjects Alloys
Chemical Sciences
Droplets
Fluid flow
High magnetic fields
Immiscible alloys
In-situ quenching
Liquids
Magnetic fields
Material chemistry
Microstructure
Migration
Miscibility gap
Sedimentation
Segregation
Segregations
title Effects of high static magnetic field on distribution of solid particles in BiZn immiscible alloys with metastable miscibility gap
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