DC Casting of Large Sized Ingot of a High Strength 7xxx Alloy under the Influence of Electromagnetic Field

Jian Zhong Cui; Hai Tao Zhang; Yu Bo Zuo

doi:10.4028/www.scientific.net/MSF.765.165

Paper Titles

Grain Refiner Development for Al Containing Mg Alloys
p.145

Focused Ion Beam Milling and Imaging: An Advanced Method to Detect Fine Inclusions in Cast Aluminium Alloys
p.150

Simulation of Cold Shuts and Misruns in Centrifugal Casting of TiAl Low Pressure Turbine Blades
p.155

Modelling Eutectic Growth in Unmodified and Modified Near-Eutectic Al-Si Alloy
p.160

DC Casting of Large Sized Ingot of a High Strength 7xxx Alloy under the Influence of Electromagnetic Field
p.165

Melt Conditioned Twin Roll Casting (MC-TRC) of Thin Mg-Alloy Strips for Direct Stamping of Mg Components
p.170

Application Research on DC Casting Process by Annular Electromagnetic Stirring for a Modified 7075 Alloy
p.175

Comparison of Oxide Thickness of Aluminium and the Effects of Selected Alloying Additions
p.180

Microstructural Modeling of Mg Alloys and Experimental Validation
p.185

HomeMaterials Science ForumMaterials Science Forum Vol. 765DC Casting of Large Sized Ingot of a High Strength...

DC Casting of Large Sized Ingot of a High Strength 7xxx Alloy under the Influence of Electromagnetic Field

Abstract:

Hot tearing and cold cracks are major defects during direct chill (DC) casting of large sized ingots of high strength aluminium alloys. In order to solve these problems, based on a low frequency electromagnetic casting (LFEC) process, a new technology, electromagnetic casting with the application of an air blade (EMA) was developed. In the present work, this new technology was used to prepare large sized AA7055 aluminium alloy ingots and the effects of the low frequency electromagnetic field and the air blade on macro-physical fields, microstructure and cracking are studied by numerical and experimental methods. The results show that applying an electromagnetic field can modify the flow direction, increase the velocity of melt flow and homogenize the distribution of temperature in the sump. Applying an air blade can homogenize the distribution of temperature and decrease the stress and strain in the solidified ingot. Furthermore, the microstructure of the ingot is refined remarkably and cracking is eliminated by simultaneously applying the electromagnetic field and the air blade during DC casting.