2014
DOI: 10.1179/1743284714y.0000000566
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Critical Assessment 2: Hydrogen induced fracture in austenitic, high-manganese TWIP steel

Abstract: Austenitic steels containing large manganese concentrations, that deform by mechanical twinning and dislocation slip, have attractive mechanical properties. They are often known as TWIP steels because the work hardening rate is enhanced by twinning, thus permitting large elongations before the onset of plastic instabilities. However, some such steels suffer from hydrogen-induced fracture. This susceptibility can be relieved by adding aluminium, although the mechanism by which aluminium acts remains a matter of… Show more

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Cited by 14 publications
(5 citation statements)
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“…[103][104][105][106][107][108] However, it is known that adding less than 2 wt% of aluminium ameliorates the situation. 60,109) Possible mechanisms of the role of aluminium include:…”
Section: Atomic Trapsmentioning
confidence: 99%
“…[103][104][105][106][107][108] However, it is known that adding less than 2 wt% of aluminium ameliorates the situation. 60,109) Possible mechanisms of the role of aluminium include:…”
Section: Atomic Trapsmentioning
confidence: 99%
“…Negligible mechanical degradation has been observed using tensile tests with specimens pre-charged with hydrogen [148,178,182,183]. Little difference was observed by So et al between the mechanical properties of Fe−18Mn−1.5Al−0.6C TWIP steel charged with different amounts of hydrogen contents and those without hydrogen charging [137].…”
Section: Hydrogen Embrittlement Of High-mn Twip Steelsmentioning
confidence: 99%
“…Hydrogen-induced fracture in TWIP steels was studied by Suh, who determined hydrogen experienced limited penetration, thus little change in mechanical properties was observed [183]. Contrarily, Koyama et al discovered that mechanical properties of Fe−18Mn−0.6C and Fe−18Mn−1.2C TWIP steel decrease significantly in the presence of hydrogen [171].…”
Section: Hydrogen Embrittlement Of High-mn Twip Steelsmentioning
confidence: 99%
“…1 This excellent combination of mechanical properties is associated with the activation of and interaction between various mechanisms, including slip, twinning, microvoids and phase transformation. [2][3][4][5][6] Stacking fault energy (SFE) has a distinctive role on the activities of these mechanisms, especially in twinning induced plasticity (TWIP) steels, 7,8 and the SFE itself is dictated by temperature and alloy composition. In particular, an increase in temperature increases the Gibbs free energy change required for any change in the lattice order and, hence, the SFE.…”
Section: Introductionmentioning
confidence: 99%