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Tailored magnetic fields in the melt extraction of metallic filaments

 
: Cramer, A.; Galindo, V.; Gerbeth, G.; Priede, J.; Bojarevics, A.; Gelfgat, Y.; Andersen, O.; Kostmann, C.; Stephani, G.

Lee, P.D. ; Ecole des Mines, Nancy:
Proceedings of the 2007 International Symposium on Liquid Metal Processing and Casting : Nancy, France, September 2 - 5, 2007
Nancy, 2007
pp.305-312
International Symposium on Liquid Metal Processing and Casting (LMPC) <7, 2007, Nancy>
English
Conference Paper
Fraunhofer IFAM, Institutsteil Pulvermetallurgie und Verbundwerkstoffe Dresden ()
magnetisches Feld; Metallendlosfaden; Korrosionsfestigkeit; poröser Körper; elektrische Leitfähigkeit; statisches Feld; Faserherstellung; Faserdurchmesser; Induktionserwärmung

Abstract
Porous bodies that are resistant to corrosion at high temperatures and thermal shock may be produced from metallic fibres. In order to accomplish reasonable homogeneity and high porosity, the cross-sectional area of the fibres as well as the width of distribution thereof need to be small. This paper studies two techniques for making fibres. Melt extraction out of a crucible yields filaments with a typical diameter ranging from 50 to 200 ?m, which is too thick. Also patented for a long time, is the extraction from a pendant drop. Even though relatively fine fibres can be manufactured with this method, it never exceeded crucible extraction with respect to industrial importance owing to the low productivity of the process. The present paper addresses the drawbacks of both variants of melt extraction of metallic filaments. Because metallic melts are electrically conducting, the use of magnetic fields allows for contact-less process optimisation. It is well believed that increasing the extraction speed diminishes the fibre diameter. Being not always true at least in the case of crucible melt extraction as indicated by the present findings, however, undesired fluid flow, i. e. turbulence, imposes an upper limit on the rotation rate of the extraction wheel. Application of a static magnetic field leads to both higher wheel speed and thinner filaments. The low productivity of extraction from the molten tip of a rod suffers from the fact that only one melt drawing edge can be used. As the bare rod is problematic with respect to heating its tip in contact with the extraction wheel, it is challenging to melt the entire edge of a sheet. A special design of the inductionheating magnetic field is proposed to solve also this task.

: http://publica.fraunhofer.de/documents/N-93161.html