4.7 Article

Transmission electron microscopy investigation of the dislocation structure in a Ti-6Al-4V alloy subjected to an early stage of cyclic deformation

Journal

MATERIALS CHARACTERIZATION
Volume 172, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2021.110896

Keywords

Titanium alloys; Cyclic deformation; Transmission electron microscopy; Dislocations

Funding

  1. Defence Aviation Safety Authority (DASA), Australian Department of Defence, via Defence Science Technology

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The study revealed that in the early stage of cyclic deformation in a Ti-6Al-4V alloy, dislocation structures mainly occurred through dislocation glide, with no evidence of deformation twinning. Prismatic and basal slip were the dominant deformation modes in the alpha phase. Dislocations in the beta phase after deformation mainly displayed a large screw component.
A detailed investigation was conducted of the dislocation structure formed within both the alpha and beta phase of a Ti-6Al-4V alloy subjected to an early stage of cyclic deformation. The cyclic loading-unloading was carried out in tension between applied stress levels of 1100 and 100 MPa, the macroscopic yield stress (sigma(02)) being about 1205 MPa, at a strain rate of 2x10(-3) s(-1) to 300 cycles, as part of an in-situ synchrotron experiment. The dislocation type, arrangement and density were examined post-mortem using transmission electron microscopy, complemented by the automatic determination of individual crystallite orientations through precession-enhanced nanobeam diffraction. The deformation took place entirely through dislocation glide and no evidence of deformation twinning was found within either of the constituent phases. The dislocation structure within the a phase was fairly similar to that formed during monotonic straining and no presence of periodic planar dislocation networks suggested in the literature was detected. Prismatic and basal slip were the dominant observed deformation modes, based on the calculated Schmid factor and critical resolved shear stress values reported in the literature. The -type dislocations present after straining typically displayed a large screw component, with a majority of them having a pure screw character. There was also limited presence of dislocations within the alpha phase and these were largely of a mixed type. Burgers vectors of the dislocations remaining after deformation within the beta phase were also largely associated with the potential slip systems having high Schmid factor values and these dislocations mainly displayed a large screw component.

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