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Discovering Pyramidal Treasures: Multi‐Scale Design of High Strength–Ductility Titanium Alloys

Shaolou Wei, Kyung‐Shik Kim, John Foltz, Cemal Cem Taşan

2024Advanced Materials42 citationsDOIOpen Access PDF

Abstract

Mechanical properties of titanium alloys, one of humankind's most essential structural materials, suffer from the lack of 〈c + a〉 dislocations on pyramidal slip planes, failing homogeneous plastic strain accommodation. This mechanical treasure is not easily accessible in titanium alloys because of the required excessively high stress levels. The present work demonstrates that such a dilemma may be overcome by meticulously tuning the c/a ratio, the simplest crystallographic parameter of the hexagonal close-packed lattice, through Sn alloying. Combining this lattice-scale design concept with a cross-rolling based polycrystal-scale design solution, this study showcases a facile route to bimodal (α + β) titanium alloys with exceptional strength-ductility synergy.

Topics & Concepts

Materials scienceTitaniumDuctility (Earth science)Titanium alloySlip (aerodynamics)Shape-memory alloyLattice (music)Hexagonal crystal systemHomogeneousComposite materialMetallurgyAlloyCrystallographyThermodynamicsAcousticsPhysicsChemistryCreepTitanium Alloys Microstructure and PropertiesCorrosion Behavior and InhibitionMetal and Thin Film Mechanics