Control System Design for a Semi-Finished Product Considering Over- and Underbending †

Ahmed Ismail; Daniel Maier; Sophie Stebner; Wolfram Volk; Sebastian Münstermann; Boris Lohmann

doi:10.3390/engproc2022026016

Control System Design for a Semi-Finished Product Considering Over- and Underbending †

Ahmed Ismail, Daniel Maier, Sophie Stebner, Wolfram Volk, Sebastian Münstermann, Boris Lohmann

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

In the last decades, the application of automatic control techniques in freeform bending processes was limited to the motion control of the bending die, i.e., the workpiece itself was not considered inside the closed-loop control system. In a previous work, a simple preliminary model for the workpiece was used as a foundation for developing a closed-loop system for freeform bending that includes both the geometry and the mechanical properties of the semi-finished product. However, this approach did not consider the fact that the same geometry can be reached by either over- or underbending the tube. In this work, the previously developed system model is extended to include this physical property of the system.

Original language	English
Article number	16
Journal	Engineering Proceedings
Volume	26
Issue number	1
DOIs	https://doi.org/10.3390/engproc2022026016
State	Published - 2022

Keywords

G-Code
automatic control
computerized numerically controlled machines (CNC-Machines)
finite element method (FEM)
freeform bending
modelling
over- and underbending of tubes

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10.3390/engproc2022026016

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abstract = "In the last decades, the application of automatic control techniques in freeform bending processes was limited to the motion control of the bending die, i.e., the workpiece itself was not considered inside the closed-loop control system. In a previous work, a simple preliminary model for the workpiece was used as a foundation for developing a closed-loop system for freeform bending that includes both the geometry and the mechanical properties of the semi-finished product. However, this approach did not consider the fact that the same geometry can be reached by either over- or underbending the tube. In this work, the previously developed system model is extended to include this physical property of the system.",

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AU - Ismail, Ahmed

AU - Maier, Daniel

AU - Stebner, Sophie

AU - Volk, Wolfram

AU - Münstermann, Sebastian

AU - Lohmann, Boris

PY - 2022

Y1 - 2022

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KW - G-Code

KW - automatic control

KW - computerized numerically controlled machines (CNC-Machines)

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Control System Design for a Semi-Finished Product Considering Over- and Underbending †

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