2019
DOI: 10.1016/j.msea.2019.05.079
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Effect of temperature on the stacking fault energy and deformation behaviour in 316L austenitic stainless steel

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Cited by 144 publications
(37 citation statements)
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“…mJ/m 2 ). According to this technique, the steel subject of study behaves in a TRIPlike way at room temperature so, as SFE increases with temperature in austenite [93], it is possible for TRIP transformations to occur at higher temperatures, although it is also possible that the mechanism changes to TWIP or even dislocation glide, depending on the SFE value.…”
Section: Resultsmentioning
confidence: 99%
“…mJ/m 2 ). According to this technique, the steel subject of study behaves in a TRIPlike way at room temperature so, as SFE increases with temperature in austenite [93], it is possible for TRIP transformations to occur at higher temperatures, although it is also possible that the mechanism changes to TWIP or even dislocation glide, depending on the SFE value.…”
Section: Resultsmentioning
confidence: 99%
“…For instance, the highest elongation during tensile testing of the AISI 201 stainless steel [133] was achieved at around 50 °C, in which the α'-martensite fraction was ~ 18 vol%, but the contribution of mechanical twinning, i.e. the twinninginduced plasticity (TWIP) effect [191,192], was obvious.…”
Section: Trip Effectmentioning
confidence: 99%
“…The deformation mechanisms of γ mainly depend on the structure stacking fault energy (SFE) [58], which is a function of the chemical composition and temperature [59][60][61]. These mechanisms can be of different types: (a) the displacive SIT/DIT are promoted if SFE <18 mJ m −2 , (b) twinning occurs if SFE is in the range 18-45 mJ m −2 and (c) dislocation glide happens if SFE >45 mJ m −2 [62].…”
Section: Stacking Fault Energymentioning
confidence: 99%