Advanced material characterization of formed metastable austenitic steels to analyse the phase transformation

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

Autorschaft

  • Kathrin Voges-Schwieger
  • Philipp Olle
  • Sven Hübner
  • Bernd Arno Behrens

Organisationseinheiten

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Details

OriginalspracheEnglisch
Titel des Sammelwerks65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010
Seiten4933-4941
Seitenumfang9
PublikationsstatusVeröffentlicht - 1 Dez. 2010
Veranstaltung65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010 - Rio de Janeiro, Brasilien
Dauer: 26 Juli 201030 Juli 2010

Publikationsreihe

Name65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010
Band6

Abstract

Material characterization becomes more and more important for the description of material behavior in numerical modeling. To specify the fractions of strain-hardening due to the change of microstructure from austenite into ?'-martensite and work-hardening considering the forming process in metastable austenitic steels, a new approach of material characterization is necessary. Therefore, the influence of different forming temperatures is investigated. The present paper deals with various analyses of the phase transformation in deep drawn parts and their characterization in order to examine the formation process at temperatures below the room temperature. Several (residual-) austenitic steels, e.g. stainless steels and TRIP-steels are investigated. One goal of the investigations is the stress-dependent description of strain-induced martensite formation.

ASJC Scopus Sachgebiete

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Advanced material characterization of formed metastable austenitic steels to analyse the phase transformation. / Voges-Schwieger, Kathrin; Olle, Philipp; Hübner, Sven et al.
65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010. 2010. S. 4933-4941 (65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010; Band 6).

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

Voges-Schwieger, K, Olle, P, Hübner, S & Behrens, BA 2010, Advanced material characterization of formed metastable austenitic steels to analyse the phase transformation. in 65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010. 65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010, Bd. 6, S. 4933-4941, 65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010, Rio de Janeiro, Brasilien, 26 Juli 2010.
Voges-Schwieger, K., Olle, P., Hübner, S., & Behrens, B. A. (2010). Advanced material characterization of formed metastable austenitic steels to analyse the phase transformation. In 65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010 (S. 4933-4941). (65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010; Band 6).
Voges-Schwieger K, Olle P, Hübner S, Behrens BA. Advanced material characterization of formed metastable austenitic steels to analyse the phase transformation. in 65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010. 2010. S. 4933-4941. (65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010).
Voges-Schwieger, Kathrin ; Olle, Philipp ; Hübner, Sven et al. / Advanced material characterization of formed metastable austenitic steels to analyse the phase transformation. 65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010. 2010. S. 4933-4941 (65th ABM International Congress, 18th IFHTSE Congress and 1st TMS/ABM International Materials Congress 2010).
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abstract = "Material characterization becomes more and more important for the description of material behavior in numerical modeling. To specify the fractions of strain-hardening due to the change of microstructure from austenite into ?'-martensite and work-hardening considering the forming process in metastable austenitic steels, a new approach of material characterization is necessary. Therefore, the influence of different forming temperatures is investigated. The present paper deals with various analyses of the phase transformation in deep drawn parts and their characterization in order to examine the formation process at temperatures below the room temperature. Several (residual-) austenitic steels, e.g. stainless steels and TRIP-steels are investigated. One goal of the investigations is the stress-dependent description of strain-induced martensite formation.",
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