Hierarchical nano-martensite-engineered a low-cost ultra-strong and ductile titanium alloy

Abstract: Due to the low thermal stability of crystallographic boundaries, the grain boundary engineering (GBE) manifests some limits to the fineness and types of microstructures achievable, while unique chemical boundary engineering (CBE) enables us to create a metallic material with an ultrafine hierarchically heterogeneous microstructure for enhancing the mechanical properties of materials. Here, using a low cost metastable Ti-2.8Cr-4.5Zr-5.2Al (wt.%) alloy as a model material, we create a high density of chemical bo… Show more

“…3f and Supplementary Fig. 9 ), outperforming many recently reported advanced works 28 – 31 . R-TiO 2 /ZnWO 4 showed a tensile strength of 1.19 MPa and a Young’s modulus of 62.2 MPa, as well as a tensile strain of 1.84% (Supplementary Fig.…”

Hierarchical triphase diffusion photoelectrodes for photoelectrochemical gas/liquid flow conversion

“…3f and Supplementary Fig. 9 ), outperforming many recently reported advanced works 28 – 31 . R-TiO 2 /ZnWO 4 showed a tensile strength of 1.19 MPa and a Young’s modulus of 62.2 MPa, as well as a tensile strain of 1.84% (Supplementary Fig.…”

Hierarchical triphase diffusion photoelectrodes for photoelectrochemical gas/liquid flow conversion

Atomistic study of inverse size effect induced by interfacial plasticity in pearlitic multi-principal element alloy

Designing ultra-strong and ductile hierarchical titanium alloys via interstitial solute-mediated multi-morphologic α-nanoprecipitates