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dc.contributor.authorBéreš, Miloslav-
dc.contributor.authorWu, Leonardo-
dc.contributor.authorSantos, Luis Paulo Mourão dos-
dc.contributor.authorMasoumi, Mohammad-
dc.contributor.authorRocha Filho, Francisco Alberto Marreiros da-
dc.contributor.authorSilva, Cleiton Carvalho-
dc.contributor.authorAbreu, Hamilton Ferreira Gomes de-
dc.contributor.authorSilva, Marcelo José Gomes da-
dc.date.accessioned2022-05-26T14:59:26Z-
dc.date.available2022-05-26T14:59:26Z-
dc.date.issued2017-
dc.identifier.citationBÉREŠ, M. et al. Role of lattice strain and texture in hydrogen embrittlement of 18Ni (300) maraging steel. International Journal of Hydrogen Energy, [s.l.], v. 42, n. 21, p. 14786-14793, 2017.pt_BR
dc.identifier.issn0360-3199-
dc.identifier.urihttp://www.repositorio.ufc.br/handle/riufc/66105-
dc.description.abstractHydrogen embrittlement causes engineering components to fail unexpectedly. Maraging 300 steel was hydrogen charged and subjected to slow strain rate tensile test until fracture.Electron backscatter diffraction analysis of fractured specimen revealed that cracks initially propagated intergranulary along prior-austenite grain boundaries. When cracks faced martensitic f111ga planes parallel to normal direction (ND) they were deflected and continued to propagate transgranulary through f001ga==ND planes. Finally, cracks were arrested by f111ga==ND planes. Crystallographic planes on which cracks propagate/are arrested, correlate well with planes that exhibit highest/lowest magnitude of lattice strain determined during tensile loading using in situ synchrotron X-ray diffraction.pt_BR
dc.language.isoenpt_BR
dc.publisherInternational Journal of Hydrogen Energypt_BR
dc.subjectMaraging steelpt_BR
dc.subjectHydrogen-induced crackpt_BR
dc.subjectEBSDpt_BR
dc.subjectLattice strainpt_BR
dc.subjectSynchrotron X-ray diffractionpt_BR
dc.titleRole of lattice strain and texture in hydrogen embrittlement of 18Ni (300) maraging steelpt_BR
dc.typeArtigo de Periódicopt_BR
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