Slip transfer across phase boundaries in dual phase titanium alloys and the effect on strain rate sensitivity

Dislocation transmission through α/β phase boundaries in titanium alloys is studied using integrated crystal plasticity (CP) and discrete dislocation plasticity (DDP) modelling techniques, combined with experimental micro-pillar compression test results. Direct dislocation transmission together with...

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Bibliographic Details
Published in:International journal of plasticity 2018-05, Vol.104, p.23-38
Main Authors: Zheng, Zebang, Waheed, Sana, Balint, Daniel S., Dunne, Fionn P.E.
Format: Article
Language:English
Subjects:
Beta phase
Compression tests
Crystal plasticity
Discrete dislocation plasticity
Dislocation transmission
Dislocations
Dual phase titanium
Grain boundaries
Microstructure
Morphology
Nucleation
Phase boundaries
Plastic properties
Sensitivity analysis
Shear stress
Slip
Strain rate
Strain rate sensitivity
Titanium alloys
Titanium base alloys
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Summary:Dislocation transmission through α/β phase boundaries in titanium alloys is studied using integrated crystal plasticity (CP) and discrete dislocation plasticity (DDP) modelling techniques, combined with experimental micro-pillar compression test results. Direct dislocation transmission together with the nucleation of new dislocations ahead of a pile-up at an α/β interface, termed indirect slip transfer, are both assessed and their role in controlling microstructure-dependent strain rate sensitivity considered. A critical shear stress criterion for direct slip transfer across an α/β interface in Ti-6242 has been established by capturing the local slip penetration through the phase boundary using CP and DDP comparisons with experimental two phase micro-pillar compression. The competition between direct and indirect slip transfer has been investigated using a single Frank-Read source DDP model. Direct slip transfer is found to occur only under specific conditions which have been quantified. The strain rate sensitivity of dual phase titanium alloys is demonstrated to depend on average pile-up size which is significantly influenced by α/β morphology. •Strain rate sensitivities of dual phase titanium alloy have been assessed.•The stress of dislocation transmission across an phase boundary has been determined.•The competition between direct and indirect dislocation transmission is presented.•The strain rate sensitivity is found to be strongly affected by the α/β morphology.
ISSN:0749-6419
1879-2154
DOI:10.1016/j.ijplas.2018.01.011