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Effect of tempering on carbides and hydrogen embrittlement in E690 high strength marine structural steel
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作者 Yi Luo Wei Li +5 位作者 Peng-wei Zhou yuan-tao xu Hui-yong Pang Ning Zhong Hui-sheng Jiao xue-jun Jin 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2022年第10期1669-1682,共14页
The effect of tempering on carbides and hydrogen embrittlement in E690 high strength marine structural steel has been investigated.The steel was tempered at 600℃ for 1–3 h.Detailed characterization was carried out t... The effect of tempering on carbides and hydrogen embrittlement in E690 high strength marine structural steel has been investigated.The steel was tempered at 600℃ for 1–3 h.Detailed characterization was carried out to characterize the microstructure,especially the dislocation density and grain size.The hydrogen permeation test and thermal desorption spectroscopy test were also implemented.The dislocation density decreases,the amount of carbide increases,and carbides(M_(23)C_(6) and MX)coarsen with the tempering time increasing.After tempered at 600℃ for 3 h,the diffusible hydrogen trapped by lattice and dislocation decreases while the non-diffusible hydrogen trapped by carbides increases,leading to the best hydrogen embrittlement resistance,although hydrogen diffuses rapidly due to the reduction of dislocation density.And the fracture mode changes from a combination of brittle cleavage and ductile dimpled fracture to fully ductile dimple fracture under hydrogen charging condition.Moreover,a phenomenon that hydrogen accelerates the dislocations movement of the steel during deformation was observed,which is related to the fact that hydrogen enhanced localized plasticity mechanism. 展开更多
关键词 High strength marine structural steel CARBIDE TEMPERING Hydrogen embrittlement Thermal desorption spectroscopy
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