Electromagnetic Field Distribution in Two-section Slitless Mold for Soft-contact Electromagnetic Continuous Casting
スポンサーリンク
概要
- 論文の詳細を見る
Numerical simulations and orthogonal experiments were used to study the effects of electromagnetic and structural parameters on magnetic distribution in a two-section slitless mold for the SC-EMCC process. The results showed that magnetic flux density decreased as the electrical frequency (f) and the thickness of the mold (d) increased, but it increased as the resistivity of the top half mold (ρR), the coil current intensity (I), the length of the top half mold and the location of the coil increased. By dimensionless analysis, the reltive equation among magnetic flux density and the parameters was given as B/(μ0I/d) = 0.058×(ρR·I2/ρVd6f3)0.29. Also the level of the initial meniscus should be controlled between the center and the top of the coil to attain better soft-contact effects. The total distribution of the electromagnetic field in the whole system of the two-section slitless mold was obtained. The magnetic flux density on the vertical direction mainly acted on the location of the initial liquid level, and the magnetic flux density was uniform along the circumferential direction but degenerated along the radical direction.
- 社団法人 日本鉄鋼協会の論文
- 2009-01-15
著者
-
Jin Baigang
Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education), Northeastern Univ
-
Wang Qiang
Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education), Northeastern Univ
-
Gao Ao
Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education), Northeastern Univ
-
Yu Yanqiu
Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education), Northeastern Univ
-
He Jicheng
Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education), Northeastern Univ
-
Jin Baigang
Key Lab. Of Electromagnetic Processing Of Materials (ministry Of Education) Northeastern Univ.
-
He Jicheng
Key Laboratory (northeasten University) Ministry Of Education
-
Yu Yanqiu
Key Laboratory Of Electromagnetic Processing Of Materials (ministry Of Education) Northeastern Unive
-
Wang Qiang
Northeastern Univ.
-
He Jicheng
Northeastern University Shenyang
-
Gao Ao
Key Laboratory Of Electromagnetic Processing Of Materials (ministry Of Education) Northeastern Unive
-
Jin Baigang
Key Laboratory Of Electromagnetic Processing Of Materials (ministry Of Education) Northeastern Unive
-
Wang Qiang
Key Laboratory Of Electromagnetic Processing Of Materials (ministry Of Education) Northeastern Unive
関連論文
- Erratum: Intensification of Bubble Disintegration and Dispersion by Mechanical Stirring in Gas Injection Refining[ISIJ. Int. 49(1): 17-23 (2009)]
- Electromagnetic Field Distribution in Two-section Slitless Mold for Soft-contact Electromagnetic Continuous Casting
- Effect of a high magnetic field on the microstructure formation in a 42CrMo steel during solid phase transformations
- Copper Distribution in Fe–Cu and Fe–C–Cu Alloys under Imposition of an Intense Magnetic Field
- Electromagnetic Field Distribution in Two-section Slitless Mold for Soft-contact Electromagnetic Continuous Casting
- Copper Distribution in Fe-Cu and Fe-C-Cu Alloys under Imposition of an Intense Magnetic Field
- Effects of Uniform and Gradient High Magnetic Fields on Gravity Segregation in Aluminum Alloys
- Influences of Flow Intensity, Cooling Rate and Nucleation Density at Ingot Surface on Deflective Growth of Dendrites for Al-based Alloy
- Prediction of Solidification Microstructure and Columnar-to-equiaxed Transition of Al-Si Alloy by Two-dimensional Cellular Automaton with "Decentred Square" Growth Algorithm
- Intensification of Bubble Disintegration and Dispersion by Mechanical Stirring in Gas Injection Refining
- In-Situ Fabrication of Bi/BiMn-BiMn-Mn Graded Materials by High Magnetic Field Gradients
- Solidified Structure Control of Metallic Materials by Static High Magnetic Fields
- Prediction of Solidification Paths for Fe-C-Cr Alloys by a Multiphase Segregation Model Coupled to Thermodynamic Equilibrium Calculations
- Restrictions of Physical Properties on Solidification Microstructures of Al-based Binary Alloys by Cellular Automaton
- Analysis of an Automatic Steel-teeming Method Using Electromagnetic Induction Heating in Slide Gate System
- Microstructure of Martensite/Bainite Dual-phase Grey Cast Iron and Its Strengthening Mechanism
- Alignment of Fe-rich Primary Phase in Cu-Fe Alloy Solidified under a High Magnetic Field
- Effect of Heat Treatment on Microstructure and Mechanical Properties of Ti-alloyed Hypereutectic High Chromium Cast Iron
- Effect of Cooling Rate and Ti Addition on the Microstructure and Mechanical Properties in As-cast Condition of Hypereutectic High Chromium Cast Irons
- Prediction of Carbide Precipitation Using Partial Equilibrium Approximation in Fe–C–V–W–Cr–Mo High Speed Steels
- Effect of Heat Treatment on Microstructure and Mechanical Properties of Ti-alloyed Hypereutectic High Chromium Cast Iron