1) continuous casting steel
连铸钢
1.
Effect of welding thermal cycle on toughness of continuous casting steel center;
焊接热循环对连铸钢中心冲击韧度的影响
2) steelmaking and continuous casting
炼钢连铸
1.
Study on application of CBR in steelmaking and continuous casting dynamic scheduling system;
CBR在炼钢连铸动态调度系统中的应用研究
2.
Model and algorithm of charge design for steelmaking and continuous casting based on just in time.;
基于准时制的炼钢连铸组炉问题模型和算法
3.
Engineering implement of dynamic subsystem in steelmaking and continuous casting scheduling system;
炼钢连铸动态调度子系统及其应用研究
3) continuous casting of steel
钢连铸
1.
By using a transformed model equation of rotating magnetic field and the boundary renewal method, a numerical model has been developed to analyze the electromagnetic force field produced by the rotating magnetic field in electromagnetic stirring processing of continuous casting of steel.
利用旋转磁场特征变换模型方程并结合边界更新法,提出一种计算旋转型电磁搅拌器在钢连铸坯中产生的电磁力场的方法。
4) steelmaking and continuous casting
炼钢-连铸
1.
Intelligent scheduling software & its application in steelmaking and continuous casting;
炼钢-连铸智能调度软件的开发及应用
2.
The design principle,structure and functions of coordination scheduling systems for steelmaking and continuous casting in MES of metallurgical industry are proposed to the coordination scheduling problem on major and subordination facility,by means of the four-dimension integration scheduling methods based on "data,models,knowledge and human-computer interaction".
针对某大型钢铁联合企业炼钢-连铸主辅设备协同调度的难题,采用基于“数据、模型、知识、人机交互”四维一体的调度方法,提出了冶金MES中炼钢-连铸协同调度系统的设计原则,系统结构和功能。
3.
A production planning optimization system for steelmaking and continuous casting is introduced.
从生产流程网络建模、生产作业计划排程优化以及在线重计划优化等方面介绍了开发的炼钢-连铸生产作业计划优化系统。
5) steelmaking-continuous casting
炼钢-连铸
1.
A Steelmaking-Continuous Casting Production Scheduling Model and Its Heuristic Algorithm;
炼钢-连铸生产调度模型及启发式算法
2.
A benchmark study for steelmaking-continuous casting scheduling optimization
炼钢-连铸优化排程的基础研究
6) continuously cast steel plate
连铸钢板
补充资料:铸钢
铸钢 cast steel 用以浇注铸件的钢。铸造合金的一种。铸钢分为铸造碳钢、铸造低合金钢和铸造特种钢3类。 ①铸造碳钢。以碳为主要合金元素并含有少量其他元素的铸钢。含碳小于0.2%的为铸造低碳钢,含碳0.2%~0.5%的为铸造中碳钢,含碳大于0.5%的为铸造高碳钢。随着含碳量的增加,铸造碳钢的强度增大,硬度提高。铸造碳钢具有较高的强度、塑性和韧性,成本较低,在重型机械中用于制造承受大负荷的零件,如轧钢机机架、水压机底座等;在铁路车辆上用于制造受力大又承受冲击的零件如摇枕、侧架、车轮和车钩等。 ②铸造低合金钢。含有锰 、铬、铜等合金元素的铸钢。合金元素总量一般小于5%,具有较大的冲击韧性,并能通过热处理获得更好的机械性能。铸造低合金钢比碳钢具有较优的使用性能,能减小零件质量,提高使用寿命。 ③铸造特种钢。为适应特殊需要而炼制的合金铸钢,品种繁多,通常含有一种或多种的高量合金元素,以获得某种特殊性能。例如 ,含锰11%~14%的高锰钢能耐冲击磨损,多用于矿山机械、工程机械的耐磨零件;以铬或铬镍为主要合金元素的各种不锈钢,用于在有腐蚀或650℃以上高温条件下工作的零件,如化工用阀体、泵、容器或大容量电站的汽轮机壳体等。 |
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