Power consumption of skull melting, Part II: Numerical calculation of the shape of the molten zone and comparison with experiment

Andris Muiznieks; Georg Raming; A. Mühlbauer; Christoph Gross; Wolf Assmus; Christian Stenzel

doi:10.1002/(SICI)1521-4079(199903)34:3<329::AID-CRAT329>3.0.CO;2-I

Power consumption of skull melting, Part II: Numerical calculation of the shape of the molten zone and comparison with experiment

Andris Muiznieks^*
, Georg Raming
, A. Mühlbauer
, Christoph Gross
, Wolf Assmus
, Christian Stenzel

^*Corresponding author for this work

Institute of Electrothermic Process Engineering

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

Abstract

A mathematical model for the numerical calculation of the shape of the molten zone during high frequency (HF) inductive Skull melting of ceramic materials in the cold crucible is presented. The mutual interaction between the molten zone and the HF electromagnetic field of the inductor is considered by an axisymmetric model because of the good electromagnetic transparency of the slitted crucible wall (see part I). By means of the developed corresponding Finite-Element program package the shape of the molten zone and corresponding power consumption of the system are calculated. The dependence of the shape of the molten zone on system parameters is analyzed numerically and compared with experimental data. Additionally, some further investigations on stability of the molten zone are performed.

Original language	English
Pages (from-to)	329-338
Number of pages	10
Journal	Crystal research and technology
Volume	34
Issue number	3
DOIs	https://doi.org/10.1002/(SICI)1521-4079(199903)34:3<329::AID-CRAT329>3.0.CO;2-I
Publication status	Published - 16 Apr 1999

ASJC Scopus subject areas

General Chemistry
General Materials Science
Condensed Matter Physics

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10.1002/(SICI)1521-4079(199903)34:3<329::AID-CRAT329>3.0.CO;2-I

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abstract = "A mathematical model for the numerical calculation of the shape of the molten zone during high frequency (HF) inductive Skull melting of ceramic materials in the cold crucible is presented. The mutual interaction between the molten zone and the HF electromagnetic field of the inductor is considered by an axisymmetric model because of the good electromagnetic transparency of the slitted crucible wall (see part I). By means of the developed corresponding Finite-Element program package the shape of the molten zone and corresponding power consumption of the system are calculated. The dependence of the shape of the molten zone on system parameters is analyzed numerically and compared with experimental data. Additionally, some further investigations on stability of the molten zone are performed.",

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T2 - Numerical calculation of the shape of the molten zone and comparison with experiment

AU - Muiznieks, Andris

AU - Raming, Georg

AU - Mühlbauer, A.

AU - Gross, Christoph

AU - Assmus, Wolf

AU - Stenzel, Christian

PY - 1999/4/16

Y1 - 1999/4/16

N2 - A mathematical model for the numerical calculation of the shape of the molten zone during high frequency (HF) inductive Skull melting of ceramic materials in the cold crucible is presented. The mutual interaction between the molten zone and the HF electromagnetic field of the inductor is considered by an axisymmetric model because of the good electromagnetic transparency of the slitted crucible wall (see part I). By means of the developed corresponding Finite-Element program package the shape of the molten zone and corresponding power consumption of the system are calculated. The dependence of the shape of the molten zone on system parameters is analyzed numerically and compared with experimental data. Additionally, some further investigations on stability of the molten zone are performed.

AB - A mathematical model for the numerical calculation of the shape of the molten zone during high frequency (HF) inductive Skull melting of ceramic materials in the cold crucible is presented. The mutual interaction between the molten zone and the HF electromagnetic field of the inductor is considered by an axisymmetric model because of the good electromagnetic transparency of the slitted crucible wall (see part I). By means of the developed corresponding Finite-Element program package the shape of the molten zone and corresponding power consumption of the system are calculated. The dependence of the shape of the molten zone on system parameters is analyzed numerically and compared with experimental data. Additionally, some further investigations on stability of the molten zone are performed.

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IS - 3

ER -

Power consumption of skull melting, Part II: Numerical calculation of the shape of the molten zone and comparison with experiment

Abstract

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