Parametrisation of a numerical model for a partial heating strategy used to evaluate a masking concept of a hot stamping process

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Bernd-Arno Behrens
  • Alexander Chugreev
  • Masood Jalanesh
  • Kai Wölki
  • Florian Bohne

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Details

OriginalspracheEnglisch
Titel des SammelwerksProceedings 28th International Conference on Metallurgy and Materials
Seiten320-325
Seitenumfang6
ISBN (elektronisch)978-80-87294-92-5
PublikationsstatusVeröffentlicht - 4 Nov. 2019
Veranstaltung28th International Conference on Metallurgy and Materials, METAL 2019 - Brno, Tschechische Republik
Dauer: 22 Mai 201924 Mai 2019

Publikationsreihe

NameMetal Conference Proceedings
ISSN (elektronisch)2694-9296

Abstract

Hot stamping has become an established technology for the production of high strength steel parts in the automotive industry. The sheets are heated up to temperatures over austenitization temperature and held in order to obtain a fully austenised microstructure, formed and subsequently quenched. A locally optimized time-temperature-profile during heating provides the possibility to produce tailored parts, with locally varying microstructure and thus locally adapted mechanical properties. In order to determine an appropriate partial heating strategy, the heating as well as the cooling process has to be analyzed. In this paper a numerical model of a partial heating process is investigated in LS-DYNA comprising the heating process as well as the subsequent cooling phase. In order to describe the heating process, a new material model in LS-DYNA is used, which is suited for modeling arbitrary phase transformation processes of multiple phases with help of different transformation equations. The parameters of the numerical model are determined by means of experimental tests. The numerical findings are validated by comparison with experimental masking test.

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Parametrisation of a numerical model for a partial heating strategy used to evaluate a masking concept of a hot stamping process. / Behrens, Bernd-Arno; Chugreev, Alexander; Jalanesh, Masood et al.
Proceedings 28th International Conference on Metallurgy and Materials. 2019. S. 320-325 (Metal Conference Proceedings).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Behrens, B-A, Chugreev, A, Jalanesh, M, Wölki, K & Bohne, F 2019, Parametrisation of a numerical model for a partial heating strategy used to evaluate a masking concept of a hot stamping process. in Proceedings 28th International Conference on Metallurgy and Materials. Metal Conference Proceedings, S. 320-325, 28th International Conference on Metallurgy and Materials, METAL 2019, Brno, Tschechische Republik, 22 Mai 2019. https://doi.org/10.37904/metal.2019.684
Behrens, B.-A., Chugreev, A., Jalanesh, M., Wölki, K., & Bohne, F. (2019). Parametrisation of a numerical model for a partial heating strategy used to evaluate a masking concept of a hot stamping process. In Proceedings 28th International Conference on Metallurgy and Materials (S. 320-325). (Metal Conference Proceedings). https://doi.org/10.37904/metal.2019.684
Behrens BA, Chugreev A, Jalanesh M, Wölki K, Bohne F. Parametrisation of a numerical model for a partial heating strategy used to evaluate a masking concept of a hot stamping process. in Proceedings 28th International Conference on Metallurgy and Materials. 2019. S. 320-325. (Metal Conference Proceedings). doi: 10.37904/metal.2019.684
Behrens, Bernd-Arno ; Chugreev, Alexander ; Jalanesh, Masood et al. / Parametrisation of a numerical model for a partial heating strategy used to evaluate a masking concept of a hot stamping process. Proceedings 28th International Conference on Metallurgy and Materials. 2019. S. 320-325 (Metal Conference Proceedings).
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abstract = "Hot stamping has become an established technology for the production of high strength steel parts in the automotive industry. The sheets are heated up to temperatures over austenitization temperature and held in order to obtain a fully austenised microstructure, formed and subsequently quenched. A locally optimized time-temperature-profile during heating provides the possibility to produce tailored parts, with locally varying microstructure and thus locally adapted mechanical properties. In order to determine an appropriate partial heating strategy, the heating as well as the cooling process has to be analyzed. In this paper a numerical model of a partial heating process is investigated in LS-DYNA comprising the heating process as well as the subsequent cooling phase. In order to describe the heating process, a new material model in LS-DYNA is used, which is suited for modeling arbitrary phase transformation processes of multiple phases with help of different transformation equations. The parameters of the numerical model are determined by means of experimental tests. The numerical findings are validated by comparison with experimental masking test.",
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AU - Bohne, Florian

N1 - Funding information: The presented work is a result of the project: „Partielles Formhärten durch Einsatz einer Maskierung im Ofenprozess“ funded by the Deutsche Forschungsgemeinschaft - 310404283. The authors gratefully thank for the funding.

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N2 - Hot stamping has become an established technology for the production of high strength steel parts in the automotive industry. The sheets are heated up to temperatures over austenitization temperature and held in order to obtain a fully austenised microstructure, formed and subsequently quenched. A locally optimized time-temperature-profile during heating provides the possibility to produce tailored parts, with locally varying microstructure and thus locally adapted mechanical properties. In order to determine an appropriate partial heating strategy, the heating as well as the cooling process has to be analyzed. In this paper a numerical model of a partial heating process is investigated in LS-DYNA comprising the heating process as well as the subsequent cooling phase. In order to describe the heating process, a new material model in LS-DYNA is used, which is suited for modeling arbitrary phase transformation processes of multiple phases with help of different transformation equations. The parameters of the numerical model are determined by means of experimental tests. The numerical findings are validated by comparison with experimental masking test.

AB - Hot stamping has become an established technology for the production of high strength steel parts in the automotive industry. The sheets are heated up to temperatures over austenitization temperature and held in order to obtain a fully austenised microstructure, formed and subsequently quenched. A locally optimized time-temperature-profile during heating provides the possibility to produce tailored parts, with locally varying microstructure and thus locally adapted mechanical properties. In order to determine an appropriate partial heating strategy, the heating as well as the cooling process has to be analyzed. In this paper a numerical model of a partial heating process is investigated in LS-DYNA comprising the heating process as well as the subsequent cooling phase. In order to describe the heating process, a new material model in LS-DYNA is used, which is suited for modeling arbitrary phase transformation processes of multiple phases with help of different transformation equations. The parameters of the numerical model are determined by means of experimental tests. The numerical findings are validated by comparison with experimental masking test.

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