Research on 760mm Hot Tandem Mill Hydraulic AGC Control System

Kun Tong; Ni Ke; Ming Zhe Che; Jin Сhun Song

doi:10.4028/www.scientific.net/AEF.2-3.18

Paper Titles

Preface, Organizing Committee and Sponsors

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Position Control of Ultrasonic Motor Using IMC-PID Combined with Tribes Type NN Algorithm
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Research on 760mm Hot Tandem Mill Hydraulic AGC Control System
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Development of Discoid Products Stacking Machine Based on PLC
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Research on SVPWM Method and its Neutral Point Potential Control
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HomeAdvanced Engineering ForumAdvanced Engineering Forum Vols. 2-3Research on 760mm Hot Tandem Mill Hydraulic AGC...

Research on 760mm Hot Tandem Mill Hydraulic AGC Control System

Abstract:

Through analyzing the 760mm hydraulic AGC production line of a Shandong factory, the characteristics, compositions and the mathematical model of hydraulic system of the hydraulic AGC are introduced. Based on those the system performance is analyzed on the working conditions by simulations through introducing the PID and fuzzy PID controller. The simulation analysis concluded that the system response time and overshoots with the fuzzy PID controller were better than before, which is in flavor of the production line commissioning and eventually running. The performance of AGC system affects the controlling accuracy of sheet thickness and yield of sheet directly. In order to accommodate the requirement of market and improve the competition of product, a steel plant from Shandong province entrusts relevant department to develop a set of hydraulic system, which is being debugged at present. Our paper mainly introduces the structure and feature of the system. With the mathematical model that accord with the working conditions being founded and PID and fuzzy PID based on the mathematical model being added, We have simulated the system using the software of MATLAB/SIMULINK, which supplies corresponding theoretical basis for the system’s final operation [1].

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Periodical:

Advanced Engineering Forum (Volumes 2-3)

Pages:

18-23

DOI:

https://doi.org/10.4028/www.scientific.net/AEF.2-3.18

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Online since:

December 2011

Authors:

Kun Tong, Ni Ke, Ming Zhe Che, Jin Сhun Song

Keywords:

Fuzzy PID, Hydraulic AGC, Simulation

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Creative Commons CC BY 4.0

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