阐述了以动态规划法按最小总张力系数对高速线材轧机精轧机组孔型进行优化设计的方法与实例。
The method and example of pass optimization design of high speed wire rod finishing mill by dynamic programming with minimum total tension coefficient are described.
以某棒材粗轧机组力矩均衡分配为目标,对各孔型尺寸进行了优化设计。
Aimed at a uniform distribution of driving torques, an optimization design of pass parameters is carried out for primary bar rolling mills.
根据型钢产品计算机辅助孔型设计c ARD的特点,本文采用了动态规划法进行产品优化设计。
According to features of section steel CARD, this paper has introduced dynamic programming method to make roll pass optimum design.
实施后,解决了连轧孔型系统设计、优化数模运算等相关问题,提高了芯棒利用率。
The relative problems such as designing continuous rolling pass system and optimizing mathematical model operation are solved after practice and utilization rate of the mandrel is increased.
优化孔型设计与现场主电机功率值的计算表明,轧制能耗可减少3.19%。
Optimization design of pass and computation of the main driving motor power under operation show that the rolling energy consumption may be reduced by 3.19%.
将这些模型和算法应用于角钢孔型优化设计,可获得较好的效果。
These models and calculation methods can be used for optimum design of Angle steel roll pass and good effect can be obtained.
阐述以动态规划法按最小轧制能耗时复二重线材轧机孔型系统进行优化设计的方法。
The optimization design for the groove system in double duo wire mill by dynamic programming were briefed according to minimum total rolling energy consumption.
首次对高速无扭线材轧机粗轧机组压力进行测试并取得成功,为优化工艺规程、优化孔型设计及设备全过程的经济管理与改进提供了可靠的依据。
The rolling pressure on high speed untwist wire rod mill was measured firstly and succeeded internationally for optimizing technology, pass design, and management of the plant.
结合生产实际,研究了动态规划法在棒、线材孔型设计中的优化方法,为高速线、棒材生产提供了一套以低能耗为目标的计算机优化软件。
To unite with manufacture practice, the optimization method of the dynamic programming law in the groove design of bar and wire stock was investigated.
在实验的基础上,用工程近似法推导出在四辊组合孔型轧制圆系统产品时的力能参数,建立了轧制圆型系统产品的计算机辅助孔型及优化设计。
On the base of experiments, the author deduced some power energy parameters of round bar in four roll pass system, established the computer aided roll pass design.
介绍了板、带材压下规程及型材的孔型优化设计问题,并指出了设计特点与方法,给出了优化后的效果。为钢材及其它有色金属轧制规程的设计提供了设计方法。
The optimization design for pass of shape steel and draughting regulations for plate and strip is introduced, design features and methods offered, the effect of optimization also given.
前言:简述多目标优化方法,将此方法应用到棒材孔型设计中。
The essay presents multiple target optimization and success in applying design of bar pass.
重点探讨了优化方法的实现和主要数学模型的确定。在上述分析的基础上建立了计算机辅助角钢孔型优化设计系统。
The concrete optimum course and mathematics model are studed in this paper, and a computer-aid design system of angle steel is established.
重点探讨了优化方法的实现和主要数学模型的确定。在上述分析的基础上建立了计算机辅助角钢孔型优化设计系统。
The concrete optimum course and mathematics model are studed in this paper, and a computer-aid design system of angle steel is established.
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