Deformation twinning is an important plastic carrier competing with the ordinary dislocation
slip in a broad class of crystalline solids, which critically controls the mechanical properties …

Exciting metallurgical breakthroughs of the last decades alongside the development and
wide-ranging availability of new and more capable experimental and theoretical tools for …

Body-centred cubic (BCC) metals possess unstable intrinsic stacking fault and high
resistance for deformation twinning, which often induce complex twinning dynamics that …

This work investigated the superelastic response of the low-modulus porous β type Ti-35Nb-
2Ta-3Zr scaffolds with different pore dimensions fabricated by laser powder bed fusion. The …

Refractory high‐entropy alloys (RHEAs) inspire the development of novel high‐temperature
structural materials due to their outstanding resistance to softening and phase stability at …

The ductile-to-brittle transition is commonly observed in metastable β-titanium (Ti) alloys
containing ω-precipitates, while the fundamental understanding on ω-embrittlement hitherto …

A novel metastable β-Ti alloy Ti-4Mo-3Cr-1Fe with high strength and high ductility was
developed through controlling the alloyʼs stability and deformation mechanisms. The …

Additive manufacturing (AM) has a substantial capability to produce superior and divergent
properties of titanium alloys for biomedical implants, unlike the existing conventional …

The ω phase transformation in numerous group IV transition metals plays a key role to
change the phase stability and modify mechanical properties, although its formation …

It has been well accepted that the martensites in quenched carbon steels exhibit two typical
morphologies which are closely dependent on the carbon content, ie lath martensite in low …