Parasar Kodati, MathWorks
This is the second webinar of 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 particular webinar you will learn how to use MathWorks products to model the looper-strip interaction for tension control. You will learn how to translate a physical description of strip tension into Simulink blocks and a Simulink model. You can also see how a multi-stage rolling process can be simulated in the Simulink environment by re-using single stage library blocks. Through product demonstrations, MathWorks engineers will show how you can:
Recorded: 17 Dec 2009
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.
Multi-Stage Rolling Mill Process, 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.
Multi-Stage Rolling Mill Process, Part 3: Tension Control
In this webinar, you will learn how to design PID controllers for managing tension in a multistage rolling mill process.