2018
DOI: 10.1002/adem.201700928
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Microstructural Evolution and Texture Analysis in a Thermomechanically Processed Low SFE Super‐Austenitic Steel (Alloy‐28)

Abstract: Microstructural evolution and texture analysis after 80% cold rolling and subsequent annealing in the temperature range of 750-1050 C is surveyed in Alloy-28. This is precisely studied through electron back scattered diffraction and also is declared through elaborating the hardness map. The occurrence of partially recrystallization is clearly evident in the microstructure which was treated 850 C annealing for 30 min. The recrystallization process is completed at 950 C even after 3 min, but in an inhomogeneous … Show more

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Cited by 16 publications
(4 citation statements)
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References 62 publications
(74 reference statements)
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“…As is reported in Table , during conventional rolling the dislocation slip accommodates the strain at lower strains and at higher strains twinning becomes the predominant deformation mechanism. According to the previous researches, the deformation twinning would be suppressed at 60% reduction during rolling and the further strains are accommodated by shear bands without any contribution of twinning and slip . The deformation mechanism in severe plastic deformation processes such as HPT is quite different from rolling condition.…”
Section: Resultsmentioning
confidence: 97%
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“…As is reported in Table , during conventional rolling the dislocation slip accommodates the strain at lower strains and at higher strains twinning becomes the predominant deformation mechanism. According to the previous researches, the deformation twinning would be suppressed at 60% reduction during rolling and the further strains are accommodated by shear bands without any contribution of twinning and slip . The deformation mechanism in severe plastic deformation processes such as HPT is quite different from rolling condition.…”
Section: Resultsmentioning
confidence: 97%
“…Therefore, deformation twinning and substructure development both contribute in strain hardening during the 3rd compression. It is worth mentioning that the previous works regarding the deformation behavior of TWIP steels through cold rolling, high pressure torsion, and equi‐channel angular pressing all reported the suppression of twinning at the early stage of processing; these are summarized in Table .…”
Section: Resultsmentioning
confidence: 98%
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“…Deformation twinning strongly depends on grain size and orientations, and more attention should be paid to microstructure and texture evolution caused by the severe deformation and plastic dissipation during FSSW/P of TWIP steel. Bimodal grain structures obtained during FSSW/P exhibit superior combination of strength and ductility through high work hardening capacity of coarse grains along with the strengthening ability of fine grains.…”
Section: Introductionmentioning
confidence: 99%