Abstract Low-density, high-strength, ductile metal mechanical metamaterials are in high
demand for engineering applications but remain out of reach by the Gibson-Ashby model …

Technological advancements have consistently been accompanied by significant progress
in materials science, with alloys serving as fundamental elements in engineering design …

Severe plastic deformation of commercially pure titanium, leading to ultrafine-grained
microstructure, can be used as an alternative to alloying to obtain better mechanical …

The anisotropic plasticity constants of the CPB06 criterion for Ti64, previously identified with
experiments performed in all three dimensions, are applied here to evaluate the effect of the …

Abstract A CPB06-based Stewart-Cazacu micromechanical damage model is implemented
and validated for Ti6Al4V material. It provides accurate numerical predictions in terms of …

The aim of the experiment was to evaluate the biocompatibility of four 3D-printed
biomaterials planned for use in the surgical treatment of finger amputees: Ti-6Al-4 V (Ti64) …

Additively manufactured Ti scaffolds have been used for bone replacement and orthopaedic
applications. In these applications, both morphological and mechanical properties are …

The present study proposes a novel approach to flat rolling in order to improve the
mechanical properties of pure Ti substrates, making it a promising alternative to the Ti-6Al …

The nanoindentation‐induced mechanical deformation response is applied to identify the
orthotropic elastic moduli using the Delafargue and Ulm method as well as to validate the …

Finite element modeling for designing and optimizing lightweight titanium aerospace
components requires advanced simulation tools with adequate material modeling. In this …