α'-martensite formation and a new method for the detection of damage in sheet metal components

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

Autorschaft

  • B. A. Behrens
  • K. Voges-Schwieger
  • K. Weilandt
  • J. Schrödter
  • J. Jocker

Organisationseinheiten

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Details

OriginalspracheEnglisch
Titel des Sammelwerks7th European Stainless Steel Conference
UntertitelScience and Market, Proceedings
Herausgeber (Verlag)Associazione Italiana di Metallurgia
ISBN (elektronisch)9788885298842
PublikationsstatusVeröffentlicht - 1 Jan. 2011
Veranstaltung7th European Stainless Steel Conference: Science and Market - Como, Italien
Dauer: 21 Sept. 201123 Sept. 2011

Publikationsreihe

Name7th European Stainless Steel Conference: Science and Market, Proceedings

Abstract

At the IFUM, a novel material inherent load sensor based on martensite transformation is under development. In metastable austenitic steels, mechanical load induces a partial transformation of austenite to martensite. The martensite content correlates with the magnitude of the load applied. The threshold of stress that initiates the phase transformation can be decreased locally by means of prior forming (e.g. stamping). This enables the detection of load below the yield stress by means of martensite content. A numerical material model to consider the load induced formation of martensite in the simulation is presented in this paper. Afterwards, an approach to detect the effective direction of load applied to the sensor is discussed.

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α'-martensite formation and a new method for the detection of damage in sheet metal components. / Behrens, B. A.; Voges-Schwieger, K.; Weilandt, K. et al.
7th European Stainless Steel Conference: Science and Market, Proceedings. Associazione Italiana di Metallurgia, 2011. (7th European Stainless Steel Conference: Science and Market, Proceedings).

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

Behrens, BA, Voges-Schwieger, K, Weilandt, K, Schrödter, J & Jocker, J 2011, α'-martensite formation and a new method for the detection of damage in sheet metal components. in 7th European Stainless Steel Conference: Science and Market, Proceedings. 7th European Stainless Steel Conference: Science and Market, Proceedings, Associazione Italiana di Metallurgia, 7th European Stainless Steel Conference: Science and Market, Como, Italien, 21 Sept. 2011.
Behrens, B. A., Voges-Schwieger, K., Weilandt, K., Schrödter, J., & Jocker, J. (2011). α'-martensite formation and a new method for the detection of damage in sheet metal components. In 7th European Stainless Steel Conference: Science and Market, Proceedings (7th European Stainless Steel Conference: Science and Market, Proceedings). Associazione Italiana di Metallurgia.
Behrens BA, Voges-Schwieger K, Weilandt K, Schrödter J, Jocker J. α'-martensite formation and a new method for the detection of damage in sheet metal components. in 7th European Stainless Steel Conference: Science and Market, Proceedings. Associazione Italiana di Metallurgia. 2011. (7th European Stainless Steel Conference: Science and Market, Proceedings).
Behrens, B. A. ; Voges-Schwieger, K. ; Weilandt, K. et al. / α'-martensite formation and a new method for the detection of damage in sheet metal components. 7th European Stainless Steel Conference: Science and Market, Proceedings. Associazione Italiana di Metallurgia, 2011. (7th European Stainless Steel Conference: Science and Market, Proceedings).
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abstract = "At the IFUM, a novel material inherent load sensor based on martensite transformation is under development. In metastable austenitic steels, mechanical load induces a partial transformation of austenite to martensite. The martensite content correlates with the magnitude of the load applied. The threshold of stress that initiates the phase transformation can be decreased locally by means of prior forming (e.g. stamping). This enables the detection of load below the yield stress by means of martensite content. A numerical material model to consider the load induced formation of martensite in the simulation is presented in this paper. Afterwards, an approach to detect the effective direction of load applied to the sensor is discussed.",
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