 High entropy alloys, HEAs, are gaining interest in biomedical applications due to their unique properties and the combination of the properties of their constituent elements. A biocompatible high entropy alloy, or bioHEA, can be considered an alternative to market available materials due to its superior properties. The XRD analysis confirmed that the studied alloy had high strength and plasticity, with a tetragonal, TVC, phase indicating the presence of face-centered cubic, FCC, phases in the alloyed materials. Microstructural and compositional analyses revealed refined and uniform metallic powder particles, with a homogeneous distribution of elemental particles observed from mapping analyses. The technological characterization of the high entropy alloy-elaborated powder showed particle dimension reduction due to welding and fracturing during mechanical alloying, with an average particle size of 45.12m. This article was authored by Alina Alena-Balleloy, Laura Alena-Giambesu, Julian Vasile Antoniak, and others. We are article.tv, links in the description below.