2020
DOI: 10.1016/j.actamat.2020.09.031
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Atomic-scale investigation of deep hydrogen trapping in NbC/α-Fe semi-coherent interfaces

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Cited by 165 publications
(39 citation statements)
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“…Recently, researchers have gradually turned their attention to whether inclusions would affect proeutectoid ferrite. [20][21][22] However, the influence of inclusions on the formation of proeutectoid ferrite is mainly concentrated in the heat-affected zone of the weld, [23,24] and there are few studies on the cast slab or billet. [25] The types of inclusions in heat-affected zone of the weld are complex and the number of inclusions is huge.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, researchers have gradually turned their attention to whether inclusions would affect proeutectoid ferrite. [20][21][22] However, the influence of inclusions on the formation of proeutectoid ferrite is mainly concentrated in the heat-affected zone of the weld, [23,24] and there are few studies on the cast slab or billet. [25] The types of inclusions in heat-affected zone of the weld are complex and the number of inclusions is huge.…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, there was a similar size distribution of Cr-rich carbides in two steels, but more nanosized NbC carbides precipitated during tempering are shown in Figure 6. M. Ohnuma et al [45] confirmed hydrogen trapped by nanosized NbC in steel using smallangle neutron scattering, and the irreversible hydrogen tapping in nanosized NbC/BCC iron semi-coherent interfaces was proved in the work of Shi et al [46]. Consequently, the dispersed nanosized NbC carbides formed during tempering contributed a beneficial effect on SSCC resistance.…”
Section: Discussionmentioning
confidence: 94%
“…However, the strain energies of the incoherent interface of semicoherent or incoherent particles were extremely minute, and these interfaces trapped hydrogen mainly by the interfacial energies, which thus led to the different desorption activation energies of the three peaks. In addition, the hydrogen adsorption capability of the coherent interfaces was strengthened by defects such as vacancies and dislocations at the coherent interfaces, [55,56] which also led to different desorption energies. Above all, peaks 1, 2, and 3 might be attributed to the precipitate/ferrite interfaces with nonuniform activation energy of hydrogen desorption.…”
Section: Tds Resultsmentioning
confidence: 99%