Accelerating the pace of engineering and science

Simulating a Multi-Stage Rolling Mill Process, Part 1: Modeling and Control of Strip Thickness and Speed

해당 시리즈: Simulating a Multi-Stage Rolling Mill Process

Alec Stothert, MathWorks
Rohit Shenoy, MathWorks

This is the first in a three-part webinar series that will highlight the use of MathWorks products for modeling and control of a multi-stage rolling mill process. In this webinar MathWorks engineers demonstrate the benefits of using Simulink as a platform for modeling and control system design for a sheet-metal-rolling application. The webinar will explore multidomain modeling involving the complex interaction of mechanical, electrical, and hydraulic systems. Viewers will learn how easy it is to perform PID control design using linear analysis methods.

Product Focus

  • Simulink
  • Simulink Control Design
  • Control System Toolbox
  • Simulink Design Optimization

녹화된: 2009년12월17일

시리즈: Simulating a Multi-Stage Rolling Mill Process

Part 1: Modeling and Control of Strip Thickness and Speed
In this webinar MathWorks engineers demonstrate the benefits of using Simulink as a platform for modeling and control system design for a sheet-metal-rolling application.

Part 2: Tension Modeling and Simulation
In this particular webinar you will learn how to use MathWorks products to model the looper-strip interaction for tension control.

Part 3: Tension Control
In this webinar, you will learn how to design PID controllers for managing tension in a multistage rolling mill process.