J. Zhang scite author profile

The most efficient way to tune microstructures and mechanical properties of metallic alloys lies in designing and using athermal phase transformations. Examples are shape memory alloys and high strength steels, which together stand for 1,500 million tons annual production. In these materials, martensite formation and mechanical twinning are tuned via composition adjustment for realizing complex microstructures and beneficial mechanical properties. Here we report a new phase transformation that has the potential to widen the application window of Ti alloys, the most important structural material in aerospace design, by nanostructuring them via complexion-mediated transformation. This is a reversible martensitic transformation mechanism that leads to a final nanolaminate structure of α″ (orthorhombic) martensite bounded with planar complexions of athermal ω (a–ω, hexagonal). Both phases are crystallographically related to the parent β (BCC) matrix. As expected from a planar complexion, the a–ω is stable only at the hetero-interface.

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J. Zhang

Origin of 2-stage R-phase transformation in low-temperature aged Ni-rich Ti–Ni alloys

Heavy carbon alloyed FCC-structured high entropy alloy with excellent combination of strength and ductility

Origin of shear induced β to ω transition in Ti–Nb-based alloys

From electronic structure to phase diagrams: A bottom-up approach to understand the stability of titanium–transition metal alloys

Complexion-mediated martensitic phase transformation in Titanium

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