它的预报精度对厚度和板形控制至关重要。
Its accuracy in force prediction is important for automatic gauge control and profile control.
分析了这些先进的高精度厚度和板形控制的关系。
It has analyzed the relationships of these advanced control technologies of high-precision thickness and shape.
钢板厚度方向上的温度分布直接影响钢板的性能和板形。
The temperature distribution in the plate along the thickness affects directly the performance and the shape of the plate.
板形控制是铝带轧制过程中重要环节,直接影响产品质量。
The sheet shape control system is important in the rolling it affects the quality of product directly.
介绍了一种新的板形控制技术—动态板形辊板形控制技术。
This paper introduces a new technique-dynamic Shape Roller technique for flatness control.
从理论上阐明了铝热轧板形对冷轧带材平直度控制的重要性。
The importance of hot rolled profile to flatness control of cold rolling is also clarified in theory.
薄带材和箔材的平直度或板形控制必然要求一定程度的模型化。
The control of thin strip and foil flatness, or shape, inevitably requires some degree of modelling.
本文介绍国外有关板形控制的方法及在冷、热板轧机上的应用。
In this paper, we introduce methods of shape control and application of shape control in cold and hot strip mill.
本文提出了基于模糊距离的R BF网络板形缺陷模式识别法。
In this paper, we put forward using RBF network to flatness pattern recognition.
阐述铝箔轧制中板形缺陷产生的原因和板形控制原理及其方法。
The defect cause of flatness during aluminum foil rolling and controlling principle and methods were introduced in this paper.
阐述铝箔轧制中板形缺陷产生的原因,板形控制的原理及其方法。
The reason of the shape defect during aluminium foil rolling is introduced. The principle and method of sheet shape control are explained.
完成了包括辊型配置和弯辊力自动设定等的板形在线控制工业试验。
The industrial trials of the online shape control models which include roll configuration, and bending force preset calculation were carried out.
设计实践证明采用该文所提出的计算方法设计气动板形检测辊是可行的。
It's proves that the design method of Pneumatic strip shape measuring roll which have made use of is available.
模拟结果表明,前后张力不仅具有矫正板形功能,还具有微调板厚作用。
The results show that back and front tension net only possesses the function of controlling sheet shape but also can adjust sheet thickness in the process.
较为详细地叙述了磁弹性板形检测仪的检测原理及其输出信号的处理方法。
The detecting principle of the magnetoelastic plate shape detector and the processing method for its output signals are described in detail.
板形平坦度自动控制系统是板带材冷连轧机过程控制系统的重要组成部分。
Flatness automatic control system is an important part of process control system of sheet or strip continuous cold rolling mill.
板形识别与板形控制理论及数学建模则是此项技术的理论基础和关键科学问题。
As far as the technique is concerned, theoretical basis and key scientific problem is the theory and mathematic model of shape control.
为此,作者研究一种基于人工神经网络技术的超薄快速铸轧过程板形控制方案。
In this paper, flat control system based on neural network for thin gauge high speed roll casting process is introduced.
在中厚钢板轧制过程中,钢板的实时及最终长宽尺寸和板形是非常重要的控制量。
Real time of steel plate and final sizes with long and wide as well as profile are vital controlling quantities in plate rolling.
因此,基于神经网络、模糊逻辑等智能计算的板形测控方法已经成为研究的热点。
So the research on intelligent methods which are based on neural network and fuzzy logic have become a focus today.
板形测控数学模型、解析板形刚度理论和板形板厚协调规律的综合称为板形计法。
Shape survey and control mathematics model, analytical theory for shape stiffness and the shape and gauge coordination control law are called shape meter method.
应用最近建立的解析板形方程推出板形最佳轧制规程和板形板厚协调控制新方法。
The shape optimal rolling schedule and new method of shape and gauge coordination control which inferred from the new built analytic shape equation have been achieved.
在设计、改造板带轧机,以及控制和改善板形时都要对轧机辊系弹性变形进行考虑。
Roll elastic deformation must be considered when plate rolling mill is designed and rebuilt and plate shape is controlled and improved.
详细分析轧制过程中带材内部残余应力产生的原因,以及由残余应力造成的板形缺陷。
The paper explains the reason why residual stresses is produced in the strip when rolling and the flatness fault caused by residual stresses.
板形识别与板形控制技术的智能化实现是现代板带轧机控制中的世界前沿性研究课题。
As far as the technique is concerned, the key scientific problem in the world is pattern recognition and the realization of shape intelligent control.
在变包角板形测量系统中,无辊环式板形辊上传感器受力状态与包角大小有直接关系。
In varying wrap Angle flatness measurement system, the value of wrap Angle has a direct influence on the mechanics status of transducers.
为了实现UC轧机的板形自动控制,研制了实验室用简易板形检测装置,并进行了实测实验。
In order to realize the automatic shape control of UC mill, the simply constructed shapemeter used in the laboratory wns designed, and the experiment was carried out.
实际运用表明,该方法能够实现板形板厚的解耦,满足板带质量控制要求并具有良好的鲁棒性。
Practice proves this method can implement decoupling of steel shape and plate thickness, meets the requirements of steel plate quality, with excellent robustness.
在此基础上,分析轧机板形控制特性,以一定的控制策略,建立起该轧机的板形预设定控制模型。
Analyzing the shape control characteristic of the mill on the base of it, the shape preset control model of the mill is made with some control tactics.
为制定合理的控制策略,须对实测板形进行模式识别,并以约定的参数定量地提供给下一控制环节。
The real shape must be recognized to establish rational control strategy and the recognition results must be quantificationally provided to the next control link with promissory parameters.
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