A novel processing route was proposed for the fabrication of biodegradable Mg–Ca binary
alloys with high Ca contents (2–3 wt.%) in sheet form with enhanced biocorrosion resistance …

Surface mechanical attrition treatment (SMAT) is considered to be an effective approach to
obtain a nanostructured layer in the treated surface of metals. In this study, we evaluated the …

Coating is an effective approach to address the high corrosion rate of biodegradable Mg
alloys, as their main challenge toward their extensive use. In this regard, it was tried to …

Binary Mg–Ca alloys with various Ca contents were fabricated under different working
conditions. X-ray diffraction (XRD) analysis and optical microscopy observations showed …

The performance of Mg–1Ca alloy, a biodegradable metallic material, may be improved by
hot working in order that it may be of use in bone implant applications. In this study, Mg–1Ca …

Microstructural design was a long-term sustainable development method to improve the
biodegradability and mechanical properties of low alloyed biomedical Mg alloys. In this …

Microstructure, composition and the corrosion resistance of Mg–Ca alloys were analysed
using SEM, EDS, XPS, EPMA, XRD, electrochemical and immersion tests. The results …

Binary Mg–1Ca alloy has been considered as a potential material for implant applications
due to its non-toxic and biodegradable properties. However, the high corrosion tendency of …

Recently, novel super light Mg–Li based alloys have attracted wide attention for potential
use as biodegradable implants. However, like most of the biodegradable Mg alloys, Mg–Li …

Abstract Mg-Zn-Ca-Mn alloys have been developed due to their great potential as new
generation of biomaterials while thermo-mechanical processes can promote its mechanical …