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W4312083908 endingPage "168516" @default.
W4312083908 startingPage "168516" @default.
W4312083908 abstract "The development of a numerical model and experimental evaluation of microstructural evolution during the deformation of such materials are of pronounced significance. In the current work, evolutions of the substructure in three Sn alloys, namely Sn-5Sb, Sn-5Sb-0.5Ag, and Sn-5Sb-0.5Cu, were investigated using a dislocation density constitutive equation. The mechanical behavior of such alloys has been assessed, taking advantage of Ag and Cu addition and substructure-based factors like dislocation density, size, and misorientation. A comprehensive constitutive equation was developed for modeling the flow behavior of Sn-based alloy through the substructure-based tensile response of the material. It has been perceived that Cu is more in effect to improve the strength of Sn than Ag and Sn-5Sb-0.5Cu alloy is with enhanced work hardening rate during the tensile state of deformation. Dislocation density formulation results have direct implications on the capability to explicitly model the superimposed effect of dislocation densities and subgrain boundaries on the macroscopic mechanical properties of polycrystals. A numerical description of twinning stress in studied BCT alloys is described by the dislocation production kinetic model considering dislocation pile-up as the dominant mechanism. The developed slip-twinning transition model is incorporated into the deformation maps to identify the twinning domain." @default.
W4312083908 created "2023-01-04" @default.
W4312083908 creator A5062212210 @default.
W4312083908 creator A5071210122 @default.
W4312083908 creator A5074262808 @default.
W4312083908 creator A5081647159 @default.
W4312083908 creator A5086400640 @default.
W4312083908 date "2023-03-01" @default.
W4312083908 modified "2023-10-18" @default.
W4312083908 title "Dislocation density and twinning-related constitutive modeling of substructural evolution in Sn-5Sb-0.5(Ag/Cu) alloys under monotonic deformation" @default.
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W4312083908 doi "https://doi.org/10.1016/j.jallcom.2022.168516" @default.
W4312083908 hasPublicationYear "2023" @default.
W4312083908 type Work @default.
W4312083908 citedByCount "2" @default.