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作 者:张宏亮[1] 冯光宏[1] 王卫卫[1] 肖金福[1] 白宇[1] 丛菁华 ZHANG Hongliang;FENG Guanghong;WANG Weiwei;XIAO Jinfu;BAI Yu;CONG Jinghua(Metallurgy Department,Central Iron and Steel Research Institute,Beijing 100081,China)
机构地区:[1]钢铁研究总院冶金工艺研究所,北京100081
出 处:《上海金属》2024年第1期50-57,共8页Shanghai Metals
基 金:国家科技支撑计划(2013BAE07B04);国家重点研发计划(2017YFB0304000)。
摘 要:对方坯直轧工艺下连铸坯温度场和初生晶粒演化进行数值模拟,并根据计算结果对连铸坯切坯顺序进行优化。结果表明:随着连铸拉速的提高,连铸方坯表面温度和心表温差逐渐增大,心部等轴晶区也逐渐扩大;拉速对连铸坯初生晶粒取向的影响较小;连铸坯定尺对铸坯头尾温差的影响较大,在拉速不变的情况下,连铸坯定尺每增加1 m,头尾温差增大约10.5℃。方坯直轧工艺生产采用非定尺切坯策略,可以有效减小连铸拉速波动对出坯生产节奏的影响。Numerical simulations of temperature field and primary grain evolution in continuously cast billet under square billet direct rolling process were carried out,and the cutting sequence of continuously cast billet was optimized based on the calculation results.The results showed that(a)with the increase of continuous casting speed,the surface temperature and temperature difference between center and surface of the casting square billet gradually increased,and the central equiaxed crystal area also gradually increased;(b)the casting speed had a little effect on the orientation of primary grains in continuously cast billet;(c)the fixed length of the continuously cast billet had a great influence on the temperature difference between head and tail of the billet;(d)when the casting speed was constant,the temperature difference between head and tail increased by about 10.5℃for each 1 m increase in the fixed length of continuously cast billet.The non-fixed length cutting strategy can be used in the square billet direct rolling,which can effectively reduce the impact of casting speed fluctuations on the production rhythm of discharging billet.
分 类 号:TG335.11[金属学及工艺—金属压力加工]
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