1) high-efficiency alterations of CCM
连铸高效改造
2) high efficient continuous casting
高效连铸
1.
By means of reconstructing the secondary cooling system of continuous caster and optimizing technology,the accurate and applicable mathematic model of solidification and heat transfer for billet in high efficient continuous casting process was established.
通过对连铸二冷区设备改造及工艺优化,建立了精确实用的方坯高效连铸二冷凝固传热数学模型,应用该模型对Q235钢150 mm×150 mm断面的二次冷却过程进行仿真计算,获得了合理的二次冷却制度。
3) high-efficiency continuous casting
高效连铸
1.
In this paper the mathematical model of high-efficiency continuous casting of billet is developed.
本文建立了方坯高效连铸二冷数学模型,提出了喷嘴有效喷淋系数和二冷有效比水量的概念。
2.
In this paper the mathematical model of the heat transfer in solidifying process for Rokop billet during high-efficiency continuous casting is developed.
本文建立了ROKOP型高效连铸的凝固传热数学模型。
4) high efficiency continuous casting
高效连铸
1.
The theory of high efficiency continuous casting, process analysis and synthetic research on all production steps in converter plant are given, the integrated optimization of various production steps and their relationship has been realized, with enormous economic benefits is quite promising.
以高效连铸为背景 ,在生产过程整体优化的原则指导下 ,对炼钢厂生产流程中各工序进行过程解析和整体研究 ,实现过程中诸工序及其关系的综合优化 ,取得了显著的经济效益 ,具有广泛的推广前
2.
In addition,the demands of secondary cooling system in high efficiency continuous casting for the performance of spray nozzles are also evaluated and the concept of effective spray coefficient is given out.
还对高效连铸二次冷却对喷嘴性能的要求进行了评价 ,提出了有效喷淋系数的概念。
3.
This paper has made a survey of the situation of high efficiency continuous casting technology(HECCT),and described HECCT from the viewpoint of technique integration.
综述了高效连铸技术的发展状况,以技术集成的观点系统地论述了高效连铸技术。
5) remaking for higher-level
高效改造
6) high-efficiency reform
高效化改造
1.
The high-efficiency reform of rectangular billet continuous caster of Xuanhua Iron and Steel Company is introduced, that can be used as reference for other continuous casters.
介绍了宣钢炼钢厂矩形坯连铸机的高效化改造,可供矩形坯、板坯连铸机高效化改造参考。
补充资料:衡阳钢管厂水平连铸机生产连铸圆管坯
衡阳钢管厂水平连铸机生产连铸圆管坯
衡阳钢管厂水平连铸机生产连铸圆管坯
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