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The influence of lattice misfit on screw and edge dislocation-controlled solid solution strengthening in Mo-Ti alloys

Georg Winkens, Alexander Kauffmann, Johannes Herrmann, Andreas K. Czerny, Susanne Obert, Sascha Seils, Torben Boll, C. Baruffi, You Rao, W.A. Curtin, Ruth Schwaiger, Martin Heilmaier

2023Communications Materials27 citationsDOIOpen Access PDF

Abstract

Mo-Ti alloys form solid solutions over a wide range of compositions, with lattice misfit parameters increasing significantly with titanium content. This indicates a strong increase in the critical stress for edge dislocation motion. Here, we probe the transition from screw to edge dislocation-dominated strengthening in Mo-Ti solid solutions with titanium content up to 80 at%. The alloys were scale-bridging characterized to isolate the impact of substitutional solid solution strengthening. Mechanical testing yielded no significant influence of grain boundaries or grain orientation. The results were corrected for the strengthening by unavoidable interstitial oxygen. Modelling of screw and edge dislocation-controlled solid solution strengthening was applied to the results to evaluate the contributions of both dislocation types. The analysis reveals that screw dislocation motion controls the strength in allows with less than 40 at% titanium, while edge dislocation motion provides comparable strength for 60-80 at% titanium. These results in a system of reduced chemical complexity support the recent investigations of edge dislocation-controlled strengthening found in high-entropy alloys.

Topics & Concepts

Materials scienceSolid solutionDislocationSolid solution strengtheningCondensed matter physicsEnhanced Data Rates for GSM EvolutionLattice (music)MetallurgyCrystallographyComposite materialPhysicsChemistryEngineeringAcousticsTelecommunicationsAdvanced materials and compositesHigh Entropy Alloys StudiesMetal and Thin Film Mechanics
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