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Dynamic Modelling of Internal Mixers Using System Identification Techniques
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D. P. Stoten
Published/Copyright:
May 27, 2013
Abstract
Dynamical modelling techniques are presented that facilitate the derivation of transfer function models between key inputs and outputs of internal mixing processes. Tests to model the mastication of natural rubber in a Francis Shaw Intermix at two levels of fill-factor are described. The derived models will form the basis for closed-loop control strategies.
Accepted: 1990-6-25
Published Online: 2013-05-27
Published in Print: 1991-05-01
© 1991, Carl Hanser Verlag, Munich
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Articles in the same Issue
- Contents
- Contents
- Internal Mixers
- Spreader Blade Analogy of Flow Past an Internal Mixer Rotor
- Observation and Analysis of Carbon Black Agglomerate Dispersion in Simple Shear Flows
- Non-Newtonian and Non-Isothermal Modeling of 3D-Flow in an Internal Mixer
- Relationship between Rotor Designs in an Internal Mixer and Physical Properties of Mixed Rubber Compounds
- Dynamic Modelling of Internal Mixers Using System Identification Techniques
- Single Screw Processing
- Theoretical Principles Governing the Design of Barrier Sections in Extruders
- A Model of Flow in the Mixing Section of the List KoKneader
- Twin Screw Extrusion
- Drag and Pressure Flow in Twin Screw Extruders
- Feed Variance Limitations for Co-rotating Intermeshing Twin Screw Extruders
- Fluid Mechanics of Distributive Mixing in a Modular Intermeshing Corotating Twin Screw Extruder
- New Ways in the Manufacturing of Finished and Semi-finished Products from Nylon
- Mixing in Non-intermeshing Twin Screw Extruders
Articles in the same Issue
- Contents
- Contents
- Internal Mixers
- Spreader Blade Analogy of Flow Past an Internal Mixer Rotor
- Observation and Analysis of Carbon Black Agglomerate Dispersion in Simple Shear Flows
- Non-Newtonian and Non-Isothermal Modeling of 3D-Flow in an Internal Mixer
- Relationship between Rotor Designs in an Internal Mixer and Physical Properties of Mixed Rubber Compounds
- Dynamic Modelling of Internal Mixers Using System Identification Techniques
- Single Screw Processing
- Theoretical Principles Governing the Design of Barrier Sections in Extruders
- A Model of Flow in the Mixing Section of the List KoKneader
- Twin Screw Extrusion
- Drag and Pressure Flow in Twin Screw Extruders
- Feed Variance Limitations for Co-rotating Intermeshing Twin Screw Extruders
- Fluid Mechanics of Distributive Mixing in a Modular Intermeshing Corotating Twin Screw Extruder
- New Ways in the Manufacturing of Finished and Semi-finished Products from Nylon
- Mixing in Non-intermeshing Twin Screw Extruders
