摘要
利用Fluent计算软件建立三维数学模型对马钢板坯连铸结晶器内钢液的流场和温度场进行数值模拟研究,并进行正交试验,分析了水口浸入深度(150~190 mm)、水口侧孔倾角(-10°~-16°)、水口侧孔与中孔的截面积比值(2,2~3.2)对拉速0.9 m/s,230 mm×1800 mm结晶器内钢液流动的影响。研究结果表明,水口浸入深度和倾角对结晶器液面波动F数和凝固坯壳厚度的影响较为显著。对于浇铸断面230 mm×1800 mm的结晶器浸入式水口的最佳工艺参数为:浸入深度170 mm、水口侧孔倾角13°、侧孔出口与中孔面积比2.7。
The numerical simulation of flow field and temperature field in casting mold for wide slab at Ma' anshan Steel has been carried out by established a three-dimensional model using Fluent software, and the effect of immersion depth of nozzle (150 -190 mm), angle of side hole of nozzle ( - 10°~-16°), ratio of cross-section area of side-hole to inside-hole ( 2. 2 ~ 3.2 ) on liquid flow in 230 mm × 1 800 mm mold with casting rate 0. 9 m/s is analyzed by orthogonal ex- periment method. Study results show that the influence of immersion depth of nozzle and side angle on mold liquid surface wave F number and thickness of solidified shell is significant. The optimum technology parameters of submerged nozzle for casting 230 mm×1 800 mm slab are submerged depth of nozzle 170 mm, angle of nozzle side-hole 13° and ratio of cross- sectional area of side-hole to inside-hole 2.7.
出处
《特殊钢》
北大核心
2013年第1期1-4,共4页
Special Steel
关键词
板坯连铸
结晶器浸入式水口
流场
温度场
数值模拟
Slab Casting, Submerged Nozzle for Mold, Flow Field, Temperature Field, Numerical Simulation
