Significant austenite decomposition during slow heating of cold-rolled medium Mn steel with a high fraction of pre-existing austenite
Approved
Classifications
MinEdu publication type
A1 Journal article (peer-reviewed)
Definition
Article
Target group
Scientific
Peer reviewed
Peer-reviewed
Article type
Journal article
Host publication type
Journal
Publication channel information
Title of journal/series
Scripta materialia
ISSN (print)
1359-6462
ISSN (electronic)
1872-8456
ISSN (linking)
1359-6462
Publisher
Elsevier
Publication forum ID
66936
Publication forum level
3
Internationality
Yes
Detailed publication information
Publication year
2025
Bibliographical publication year
2025
Reporting year
2025
Journal/series volume number
262
Article number
116636
DOI
10.1016/j.scriptamat.2025.116636
Language of publication
English
Co-publication information
International co-publication
Yes
Co-publication with a company
No
Availability
Link to online publication
Link to self-archived version
Classification and additional information
MinEdu field of science classification
216 Materials engineering, 214 Mechanical engineering
Keywords
Medium Mn steel; Austenite decomposition; In situ synchrotron XRD; Cementite; Bainite
Funding information
Funding information in the publication
The authors would like to thank Jane and Aatos Erkko (J&AE) and Tiina and Antti Herlin (TAH) Foundations for their financial support on the Advanced Steels for Green Planet (AS4 G) project. SW extends thanks to Doc. Graham King and Mr. Al Rahemtulla for their assistance during the beamtime and acknowledges the financial support from the Research Council of Finland research fellowship 2024 (#363210). VJ would like to thank the University of Oulu and the Research Council of Finland, Profi 352788, for funding the H2Future project.
Funders
Funder
Research Council of Finland (former Academy of Finland)
Name of funding
-
Funding decision
-
Funder
Jane ja Aatos Erkko Foundation
Name of funding
-
Funding decision
-
Funder
Tiina and Antti Herlin Foundation
Name of funding
-
Funding decision
-
Source database ID
WoS ID
WOS:001446754200001
Scopus ID
2-s2.0-86000641294