Simulation of the Hot Forming Process in Consideration of the Thermal State of the Tools

Wolfgang Weiß; Michael Machhammer; Florian Krall; Ralf Kolleck

Simulation of the Hot Forming Process in Consideration of the Thermal State of the Tools

Wolfgang Weiß, Michael Machhammer, Florian Krall, Ralf Kolleck

Arbeitsgruppe Leichtbau- und Umformtechnologien (3031)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

The application of thermal-mechanical coupled simulations gains rising importance for the design of a hot forming process, due to the increasing amount of hot formed parts in modern car bodies. State of the art simulation software and hardware allow the engineer to build the forming model completely based on solid elements, rather than simplified shell elements for the tool bodies. Through this it is possible to simulate the temperature history of both, the blank and the tool, lead-ing to more detailed results of the hot forming process. To ensure a high quality of the results, temperature-dependent material and system parameters must be available for the tools and the blank.
Within this work, these parameters are obtained through metamodel-based optimization of a FEM model with temperature measurements of a test rig. The results are implemented in a forming simulation model, built up from solid elements. To validate the simulation of this forming model, temperature results will be compared to measurement data from a real hot forming tool.

Originalsprache	englisch
Titel	Proceedings CHS2, Hot Sheet Metal Forming of High-Performance Steel
Erscheinungsort	Luleå
Herausgeber (Verlag)	Verlag Wissenschaftliche Scripten
Seiten	91 - 98
Seitenumfang	8
Band	4
ISBN (Print)	978-3-942267-82-3
Publikationsstatus	Veröffentlicht - 9 Juni 2013
Veranstaltung	4th International Conference on Hot Sheet Metal Forming of High-Performance Steel CHS² - Luleå, Schweden Dauer: 9 Juni 2013 → 12 Juni 2013

Konferenz

Konferenz	4th International Conference on Hot Sheet Metal Forming of High-Performance Steel CHS²
Land/Gebiet	Schweden
Ort	Luleå
Zeitraum	9/06/13 → 12/06/13

Fields of Expertise

Mobility & Production

Treatment code (Nähere Zuordnung)

Application
Experimental

Dieses zitieren

Simulation of the Hot Forming Process in Consideration of the Thermal State of the Tools. / Weiß, Wolfgang; Machhammer, Michael; Krall, Florian et al.
Proceedings CHS2, Hot Sheet Metal Forming of High-Performance Steel . Band 4 Luleå: Verlag Wissenschaftliche Scripten, 2013. S. 91 - 98.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Weiß, W, Machhammer, M, Krall, F & Kolleck, R 2013, Simulation of the Hot Forming Process in Consideration of the Thermal State of the Tools. in Proceedings CHS2, Hot Sheet Metal Forming of High-Performance Steel . Bd. 4, Verlag Wissenschaftliche Scripten, Luleå, S. 91 - 98, 4th International Conference on Hot Sheet Metal Forming of High-Performance Steel CHS², Luleå, Schweden, 9/06/13.

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abstract = "The application of thermal-mechanical coupled simulations gains rising importance for the design of a hot forming process, due to the increasing amount of hot formed parts in modern car bodies. State of the art simulation software and hardware allow the engineer to build the forming model completely based on solid elements, rather than simplified shell elements for the tool bodies. Through this it is possible to simulate the temperature history of both, the blank and the tool, lead-ing to more detailed results of the hot forming process. To ensure a high quality of the results, temperature-dependent material and system parameters must be available for the tools and the blank.Within this work, these parameters are obtained through metamodel-based optimization of a FEM model with temperature measurements of a test rig. The results are implemented in a forming simulation model, built up from solid elements. To validate the simulation of this forming model, temperature results will be compared to measurement data from a real hot forming tool.",

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N2 - The application of thermal-mechanical coupled simulations gains rising importance for the design of a hot forming process, due to the increasing amount of hot formed parts in modern car bodies. State of the art simulation software and hardware allow the engineer to build the forming model completely based on solid elements, rather than simplified shell elements for the tool bodies. Through this it is possible to simulate the temperature history of both, the blank and the tool, lead-ing to more detailed results of the hot forming process. To ensure a high quality of the results, temperature-dependent material and system parameters must be available for the tools and the blank.Within this work, these parameters are obtained through metamodel-based optimization of a FEM model with temperature measurements of a test rig. The results are implemented in a forming simulation model, built up from solid elements. To validate the simulation of this forming model, temperature results will be compared to measurement data from a real hot forming tool.

AB - The application of thermal-mechanical coupled simulations gains rising importance for the design of a hot forming process, due to the increasing amount of hot formed parts in modern car bodies. State of the art simulation software and hardware allow the engineer to build the forming model completely based on solid elements, rather than simplified shell elements for the tool bodies. Through this it is possible to simulate the temperature history of both, the blank and the tool, lead-ing to more detailed results of the hot forming process. To ensure a high quality of the results, temperature-dependent material and system parameters must be available for the tools and the blank.Within this work, these parameters are obtained through metamodel-based optimization of a FEM model with temperature measurements of a test rig. The results are implemented in a forming simulation model, built up from solid elements. To validate the simulation of this forming model, temperature results will be compared to measurement data from a real hot forming tool.

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ER -

Simulation of the Hot Forming Process in Consideration of the Thermal State of the Tools

Abstract

Konferenz

Fields of Expertise

Treatment code (Nähere Zuordnung)

Fingerprint

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