Titanium alloys have emerged as the most successful metallic material to ever be applied in
the field of biomedical engineering. This comprehensive review covers the history of titanium …

Along the way, investigations over the past few years have focused on developing new Zn-
based alloys as future materials for medical implants due to the poor mechanical and …

Long-length ultrafine-grained (UFG) Ti rods are produced by equal-channel angular
pressing via the conform scheme (ECAP-C) at 200° C, which is followed by drawing at 200° …

The study is concerned with the mechanical properties of Zn and three Zn–Mg double alloys
with Mg concentrations: 0.5%, 1.0% and 1.5% in the form of rods with a diameter of 5 mm as …

With the rapid development of nano-preparation processes, nanocrystalline materials have
been widely developed in the fields of mechanics, electricity, optics, and thermal physics …

Severe plastic deformation (SPD) is known to be the best method for producing bulk ultrafine-
grained and nanostructured materials with excellent properties. Different SPD methods were …

This study presents a novel approach for the fabrication of commercially pure titanium (CP–
Ti) components. The approach conferred superb strength to CP-Ti without sacrificing its …

To satisfy the most stringent criteria in terms of new cardiovascular stents, pure Zn was
alloyed with 1 wt pct of Mg and subsequently subjected to plastic deformation, using …

Capability of a novel severe plastic deformation (SPD) method of hydrostatic cyclic extrusion
compression (HCEC) for processing of hcp metallic rods with high length to diameter ratios …

Nano-grained (NG) commercially pure (CP, grade 2) Ti with average grain size of 80nm was
produced by the combination of asymmetric and symmetric rolling at room temperature. The …