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Temperature Effect on Stacking Fault Energy and Deformation Mechanisms in Titanium and Titanium-aluminium Alloy

Beikai Zhao, Peng Huang, Libo Zhang, Suzhi Li, Ze Zhang, Qian Yu

2020Scientific Reports95 citationsDOIOpen Access PDF

Abstract

Alloying elements have great influence on mechanical properties of metals. Combining dislocation characterization and in-situ transmission electron microscope straining at ambient and liquid-nitrogen temperature in high-purity titanium and Ti-5at%Al, we investigated the modulation of Al on dislocation behaviours as temperature changed. It reveals that segregation of Al at edge dislocation cores in Ti-5at%Al generates strong obstacles, promoting room temperature cross-slips. However, the effect of Al on reducing stacking-fault energy (SFE) as decreasing temperature is significant. Consequently, the lower SFE in Ti-5at%Al results in ordinary planar dislocation slip while massive dislocation cross-slips occurred in Ti at liquid-nitrogen temperature.

Topics & Concepts

Materials scienceTitaniumStacking-fault energyLiquid nitrogenAluminiumDislocationSlip (aerodynamics)Stacking faultTransmission electron microscopyAlloyTitanium alloyMetallurgyStackingDeformation (meteorology)Composite materialThermodynamicsNanotechnologyChemistryPhysicsOrganic chemistryTitanium Alloys Microstructure and PropertiesMicrostructure and mechanical propertiesIntermetallics and Advanced Alloy Properties
Temperature Effect on Stacking Fault Energy and Deformation Mechanisms in Titanium and Titanium-aluminium Alloy | Litcius