University of Wollongong
Browse

EBSD observations of recrystallisation and tensile deformation in twinning induced plasticity steel

Download (2.83 MB)
journal contribution
posted on 2024-11-16, 09:02 authored by Ahmed Saleh, Azdiar GazderAzdiar Gazder, Elena PerelomaElena Pereloma
The microstructure evolution of cold-rolled and isochronally annealed Fe-24Mn-3Al-2Si-1Ni-0.06C twinning induced plasticity steel was investigated by electron back-scattering diffraction (EBSD). Deformation behaviour of a fully recrystallised sample was tracked in a selected area as a function of the true strain using a combination of interrupted tensile testing and EBSD. The results show that the cold rolled microstructure contained a large fraction of primary and secondary twins as well as remnants of annealing twins carried over from the prior hot rolling stage. A novel deconstruction technique was applied to a partially recrystallised sample in order to separate the microstructure into deformed, recovered, newly nucleated and growing recrystallised grains. The interrupted tensile tests revealed the formation of fine striations in grains with "111" "111" and "110" orientations just after yielding. While the striations could be attributed to either stacking faults or the formation of fine twin packets, some of them manifested as twin boundaries as the true strain was increased up to 0.209. 2013 Indian Institute of Metals.

Funding

An analytical field emission gun scanning electron microscope

Australian Research Council

Find out more...

History

Citation

Saleh, A. A., Gazder, A. A. & Pereloma, E. (2013). EBSD observations of recrystallisation and tensile deformation in twinning induced plasticity steel. Transactions of the Indian Institute of Metals, 66 (5-6), 621-629.

Journal title

Transactions of the Indian Institute of Metals

Volume

66

Issue

5/06/2024

Pagination

621-629

Language

English

RIS ID

83433

Usage metrics

    Categories

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC