1
Mining & Metallurgical Eng., University of Queensland
2
Materials Engineering, Iran University of Science & Technology
Abstract
A mathematical model of heat transfer in continuous casting copper slabs capable of producing experimental data has been constructed and validated against experimental data provided by the management of Copper Refineries Ltd., Townsville plant in Australia. It has been used to predict the effects of major casting variables; metal temperature, casting speed and metal conductivity. The results can be expressed most conveniently through their effects on predicted depth of liquid pool.
Algie, S., & Ghasemzadeh, R. (1989). Solidification in Copper Continuously Cast in Graphite Moulds. International Journal of Engineering, 2(3), 132-143.
MLA
S.H. Algie; R. Ghasemzadeh. "Solidification in Copper Continuously Cast in Graphite Moulds". International Journal of Engineering, 2, 3, 1989, 132-143.
HARVARD
Algie, S., Ghasemzadeh, R. (1989). 'Solidification in Copper Continuously Cast in Graphite Moulds', International Journal of Engineering, 2(3), pp. 132-143.
VANCOUVER
Algie, S., Ghasemzadeh, R. Solidification in Copper Continuously Cast in Graphite Moulds. International Journal of Engineering, 1989; 2(3): 132-143.