The effect of copper (Cu) addition on the microstructure evolution and deformation
mechanism of L605 (Co-20Cr-15 W-10Ni) alloy during cold deformation was investigated by …

In the present study, the microstructural evolution and mechanical properties of hot-rolled
biomedical Co-20Cr-15W-10Ni (wt%) alloy were investigated. The hot-rolled alloys were …

In the present study, the microstructures and tensile deformation behaviors of biomedical Co–
29Cr–6Mo (wt%) alloys containing different concentrations of nitrogen (0–0.24 wt%) were …

In this study, novel biomedical Co29Cr9W3Cu samples were fabricated using selective laser
melting (SLM) technology. In order to better understand the formation of the lattice defects …

Nitrogen addition is a promising strategy for improving the mechanical properties of
biomedical Co− Cr− Mo alloys. In the present study, a Co–29Cr–6Mo–0.2 N (wt.%) alloy was …

Further strengthening of biomedical Co− Cr− Mo alloys is desired, owing to the demand for
improvements to their durability in applications such as artificial hip joints, spinal rods, bone …

The present work investigates the microstructural evolution of a biomedical Co-20Cr-15W-
10Ni alloy during multi-pass thermomechanical processing (TMP) and clarifies its effect on …

The microstructures and hot deformation behaviors of the Co–29Cr–6Mo (CCM) alloy and
the same alloy with C and N addition (CCMCN) were compared and analyzed …

The microstructure and tensile properties of Co–27Cr–6Mo (mass%) alloys heat-treated at
673–1373 K were studied. Lower elongation was observed after heat treatment at 1073 K …

The effect of hot rolling on the microstructural evolution and mechanical properties of
biomedical Co-29Cr-6Mo-0.14 N (mass pct) alloys has been investigated. The alloy strength …