Influence of Different Roll Casting Conditions on Casting Microstructure

Xiao Bo Liu; Wen Kang Yan

doi:10.4028/www.scientific.net/AMR.652-654.2432

Paper Titles

Effect of DC Casting Processes on Microstructure of AlCu4.5Mn0.8 Alloy
p.2409

Grain Refinement of 6061 Alloy by Low-Voltage Pulsed Magnetic Field Treatment
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Effect of Annular Electromagnetic Stirring Process on Solidification Microstructure of 7075 Aluminium Alloy
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Effect of Magnetostatic Field on Microstructure of 7075 Aluminum Alloy Strip Manufactured by Twin-Roll Casting
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Influence of Different Roll Casting Conditions on Casting Microstructure
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Simulation of Bridgman Directional Solidification Microstructure Using Phase Field Method
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Application of the Dynamic Soft-Reduction Technology on the No.4 Slab Continuous Caster of Bayi Steel
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Effects of Argon Partial Pressure on Interfacial Shape of Porous Copper under Unidirectional Solidification
p.2446

Numerical Simulation on Mold Electromagnetic Eccentric Stirring and Central Segregation of Round Bloom
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Influence of Different Roll Casting Conditions on Casting Microstructure

Abstract:

The changes of roll casting microstructure under different casting conditions on experimental casting machine was studied, which showed that solidification microstructure is different with different casting speed and thickness. When the casting speed is 1.3m/min,the thickness of strip is 6mm, coarse columnar grain dominates the solidification structure; when it continuously increases to 4m/min, the thickness of strip is 3mm, aluminum strip shows as hybrid organization with columnar grains in two sides and small equiaxed grains in the center; when the casting speed is over 12m/min,the thickness of strip is 1.75mm, columnar grains all convert into equiaxed grains in solidification structure. The deformation microstructures are different with the different casting speed and thickness of strip. When the casting speed is 0.9m/min, the thickness of strip is 6mm, typical processing flow lines come into being along longitudinal direction and transverse direction shows as squashed grains without re-crystallization. When the casting speed is 5.4m/min, the thickness of strip is 2.5mm, microstructure of aluminum strip becomes chevron organization from columnar crystal, there is a condensate in the center of aluminum strip, and the deformation of outer metal is more serious than inner, incomplete dynamic recrystallized grains come into being in the outer metal of the aluminum strip.