Numerical simulation of magnetic field for electromagnetic casting of hollow billets



Document title: Numerical simulation of magnetic field for electromagnetic casting of hollow billets
Journal: Journal of the Brazilian Society of Mechanical Sciences and Engineering
Database: PERIÓDICA
System number: 000312270
ISSN: 1678-5878
Authors: 1

2
3
4
Institutions: 1Northeastern University, Laboratory of Electromagnetic Processing of Materials, Shenyang. China
2Shenyang Institute of Aeronautical Engineering, Shenyang. China
3Shenyang University of Technology,
4Chinese Academy of Sciences, Institute of Automation, Shenyang. China
Year:
Season: Jul-Sep
Volumen: 27
Number: 3
Pages: 325-328
Country: Brasil
Language: Inglés
Document type: Artículo
Approach: Experimental
English abstract Distribution of magnetic field during electromagnetic continuous casting of hollow billets of aluminum alloys is studied by the method of numerical simulation. Two-dimensional axis-symmetric finite element model including water-cooled core, outer mould, ingot, inner and outer induction coil has been established. Distribution of magnetic flux density is obtained by solving magnetic vector potential formulations. 1) In electromagnetic casting, inner and outer induction coil interact, magnitude and admeasurements of current affect directly distribution of magnetic flux density. 2) Magnetic flux density near interior surface of pipe wall is increased notablely by increasing appropriately frequency. 3) Phase difference affects the magnitude and direction of the gradient of magnetic flux density
Disciplines: Ingeniería,
Matemáticas,
Física y astronomía
Keyword: Ingeniería de materiales,
Matemáticas aplicadas,
Aleaciones de alumino,
Aluminio,
Simulación numérica,
Campo electromagnético
Keyword: Engineering,
Mathematics,
Physics and astronomy,
Materials engineering,
Applied mathematics,
Numerical simulation,
Aluminum alloys,
Electromagnetic field,
Hollow ingot
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