Multiscale microstructure engineering of steels

Hodgson, P.D., Timokhina, I.B. and Beladi, H. 2013, Multiscale microstructure engineering of steels, Materials science and technology, vol. 29, no. 10, pp. 1152-1157.

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Title Multiscale microstructure engineering of steels
Author(s) Hodgson, P.D.
Timokhina, I.B.ORCID iD for Timokhina, I.B.
Beladi, H.ORCID iD for Beladi, H.
Journal name Materials science and technology
Volume number 29
Issue number 10
Start page 1152
End page 1157
Total pages 6
Publisher Maney Publishing
Place of publication Leeds, England
Publication date 2013-10
ISSN 0267-0836
Keyword(s) ultrafine ferrite
ultrafine bainite
high strength steels
atom probe tomography
Summary The development of modern steels is based on the tailoring of the microstructure to achieve the required properties. While historically this was performed at the micrometre scale length, there is now the scope to undertake this at the nanoscale or atom scale. The present paper reviews recent work related to the development of ultrafine and nanoscale microstructures in steel as well as changes at shorter scale lengths, such as cluster formation and solute effects. This includes the development of ultrafine ferrite through phase transformation, nanoscale and ultrafine bainite, precipitation and cluster strengthening and bake hardening of steels. A key element of the present work has been the use of atom probe tomography to unlock the nature of these structures.
Language eng
Field of Research 099999 Engineering not elsewhere classified
Socio Economic Objective 970109 Expanding Knowledge in Engineering
HERDC Research category C1 Refereed article in a scholarly journal
Copyright notice ©2013, Maney Publishing
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