1) centrifugal flow tundish
离心流动中间包
1.
Electromagnetic stirring technology for tundish——centrifugal flow tundish;
中间包冶金新技术——离心流动中间包
2) Centrifugal Flow Tundish
离心中间包
1.
Flow structure and mixing characteristic in centrifugal flow tundish were investigated by mathematical simulation method,and the simulation results were verified with the measurement data obtained from water model.
采用数值模拟方法对离心中间包内钢液的流动结构及混合特性进行了研究,并用水模型结果进行了验证。
2.
Numerical Simulation of Liquid Steel Flow Characteristics in Centrifugal Flow Tundish for Continuous Casting;
采用数值模拟对离心中间包内的钢液流动特性进行了研究,考察了分配室中挡坝的位置及旋转磁场强度对整体流场结构的影响,并通过试验验证了计算结果的可靠性。
3) centrifugal tundish
离心式中间包
1.
To study the flowing process of molten steel in centrifugal tundish,the LES(Large Eddy Simulation) is used to investigate the structure of flow field in three cases,i.
为了研究离心式中间包的流动过程,采用大涡模拟(LES)方法针对3种不同情况,即(a)电磁力加直水口注流;(b)利用钢液的位能使用弯水口注流;(c)电磁力和弯水口注流共同作用,考察了影响旋流强度和中间包内流动结构的工艺参数。
2.
Some measures to help liquid steel purification such as turbulence inhibitor(TI),gas bubble curtain,centrifugal tundish and gas injection in the ladle shrouding tube are introduced.
中间包内钢水的流动特性对钢水的净化有重要作用,介绍了中间包流场控制新技术,如湍流控制器、气幕挡墙、中间包吹气技术和离心式中间包技术等,合理的中间包结构设计可以改善内部流场,降低湍动能,延长钢液停留时间,有利于夹杂物的去除和钢水成分、温度的均匀。
4) centrifugal flow tundish
离心式中间包
1.
Upon the problem that the swirling flow in centrifugal flow tundish is not enough, the present work searches a way which can reinforce the swirling flow in rotation chamber without the application of external energy and power.
针对离心式中间包电磁驱动旋流强度不充分的问题,探讨在不增加外加能量或动力的情况下,利用弯水口将钢包内钢液的位置势能转化为水平出流动能以增强旋转室内钢液旋流强度的可能性。
5) Clothing Sheet Granulator for Centrifugal Flow
离心流动包衣造粒机
补充资料:中间包
tundish:连铸机钢水包和结晶器之间钢水过渡的装置,用来稳定钢流,减小钢流对坯壳的冲刷,以利于非金属夹杂物上浮,从而提高铸坯质量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条