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W4313594956 endingPage "365" @default.
W4313594956 startingPage "353" @default.
W4313594956 abstract "The study on the deformation mechanism of titanium alloys is beneficial to revealing the influence of microstructure on mechanical properties, and then providing guidance for the optimization of microstructure and properties. For most near-α and α + β titanium alloys, slip is the dominant deformation mechanism. Therefore, investigating the slip initiation and slip transfer behavior, as well as crack nucleation mechanism, is essential to reveal the fundamental relationship between microstructure and mechanical properties. However, due to the coexistence of grain boundary and phase boundary in dual-phase microstructure of titanium alloys, the phase content, grain size, grain boundary misorientation and α/β orientation relationship would affect the slip initiation and transfer behavior, resulting in a very complex plastic deformation mechanism. Based on the previous investigations of deformation mechanism of near-α and α + β titanium alloys, this review first analyzed the sequence of slip initiation between α and β phases and discussed the main factors affecting the slip initiation in α phase. Secondly, the basic rule of slip transfer and the influence of different interfaces on slip transfer were reviewed. Finally, the mechanism of crack nucleation and effect of microstructure on crack nucleation were analyzed based on slip transfer behavior." @default.
W4313594956 created "2023-01-06" @default.
W4313594956 creator A5017941291 @default.
W4313594956 creator A5026906414 @default.
W4313594956 creator A5030689354 @default.
W4313594956 creator A5035292460 @default.
W4313594956 creator A5038731632 @default.
W4313594956 creator A5057260856 @default.
W4313594956 date "2023-01-04" @default.
W4313594956 modified "2023-10-16" @default.
W4313594956 title "Dislocation Slip and Crack Nucleation Mechanism in Dual-Phase Microstructure of Titanium Alloys: A Review" @default.
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