Strong static magnetic field processing of metallic materials: a review

Sun, Z. H. I., Guo, M., Vleugels, J., Van der Biest, O. and Blanpain, B. (2012) Strong static magnetic field processing of metallic materials: a review. Current Opinion in Solid State and Materials Science, 16 5: 254-267. doi:10.1016/j.cossms.2012.08.001


Author Sun, Z. H. I.
Guo, M.
Vleugels, J.
Van der Biest, O.
Blanpain, B.
Title Strong static magnetic field processing of metallic materials: a review
Journal name Current Opinion in Solid State and Materials Science   Check publisher's open access policy
ISSN 1359-0286
1879-0348
Publication date 2012-10-01
Sub-type Critical review of research, literature review, critical commentary
DOI 10.1016/j.cossms.2012.08.001
Open Access Status Not Open Access
Volume 16
Issue 5
Start page 254
End page 267
Total pages 14
Place of publication Oxford , United Kingdom
Publisher Pergamon
Language eng
Abstract Metallic materials processing in an imposed strong static magnetic field (SSMF) has attracted widely attention in the last decade since a magnetic field of 10 T or higher becomes easily attainable. Fundamentals including magnetic energy, magnetic anisotropy and magnetic forces influence significantly the research and development of this technology by means of both scientific and engineering paths. The ability to control metallic materials processing depends crucially on the understanding of the fundamentals and subsequently the engineering of the strong magnetic field effects. This review provides a critical examination of different SSMF effects together with the fundamentals that can be used in liquid/solid metal controlling and the subsequent metallic materials preparation. These effects are discussed by integrating them into different technologies or experimental results and accompanied by theoretical considerations of the fundamentals. Comprehensive comparisons are then carried out for each series of SSMF effects. It is aiming to provide an overview of the recent progress in SSMF processing of metallic materials.
Keyword Strong static magnetic field
Metallic materials
Magnetic manipulation
Review
Functionally graded materials
Electromagnetic separation method
Cu-80-Percent-Pb Hypermonotectic Alloy
Directional solidification process
Pb-Sn Alloys
Bi-Mn Alloy
Crystal orientation
Bridgman growth
Liquid metals
Phase transformation
Q-Index Code C1
Q-Index Status Provisional Code
Institutional Status UQ

Document type: Journal Article
Sub-type: Critical review of research, literature review, critical commentary
Collection: School of Chemical Engineering Publications
 
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