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Ultra-fine grained microstructure of metastable beta Ti-15Mo alloy and its effects on the phase transformations

Publication at Faculty of Mathematics and Physics |
2017

Abstract

Processing of metastable titanium alloys by severe plastic deformation provides an opportunity to achieve exceptional grain refinement, to enhance the strength and to affect phase transformations occurring during thermal treatment. The main aim of this study is to investigate the microstructure of ultra-fine grained (UFG) material and effect of microstructural changes on phase transformations in metastable beta-Ti alloy Ti-15Mo.

Metastable beta-Ti alloys are currently the most studied Ti-based materials with prospective use in medicine. Ti-15Mo alloy after solution treatment contains metastable beta-phase.

Metastable omega-phase and stable alpha-phase particles are formed upon annealing,. Solution treated Ti-15Mo alloy was deformed by high pressure torsion (HPT) at room temperature.

Severely deformed structure after HPT with grain size of similar to 200 nm was studied by transmission electron microscopy. In-situ electrical resistance measurements showed significant changes in undergoing phase transformations when compared to coarse-grained (CG) material.

Scanning electron microscopy revealed heterogeneous precipitation of alpha-particles at grain boundaries (GB). Due to the high density of GBs in UFG structure, these precipitates are very fine and equiaxed.

The study demonstrates that SPD is capable of enhancing mechanical properties due to grain refinement and via affecting precipitation processes in metastable beta-Ti alloys.