Microstructures and mechanical properties of as‐cast titanium–zirconium–molybdenum ternary alloys

Abstract: In this study titanium-zirconium-molybdenum alloys (Ti 50 Zr 50 ) 100-x Mo x (xMo; x = 0 at.%, 1 at.%, 3 at.%, 5 at.% or 7 at.%) were investigated, focusing on the effect of molybdenum addition on their microstructures and mechanical properties. Transmission electron microscopy observations revealed that the binary Ti 50 Zr 50 alloy was composed entirely of an acicular hexagonal structure of the a' phase. When the molybdenum content was 1 at.%, the alloy was composed of b and w phases. However, when 3 at.% or … Show more

“…The posterior micro-hardness decay in Mo-richer samples confirms the suppression of this phase by the alloying elements. As it is well-known, Zr has a significant action on blocking (110) b plane collapses, which is crucial for u phase nucleation [22,40].…”

Development of Ti-15Zr-Mo alloys for applying as implantable biomedical devices

“…The posterior micro-hardness decay in Mo-richer samples confirms the suppression of this phase by the alloying elements. As it is well-known, Zr has a significant action on blocking (110) b plane collapses, which is crucial for u phase nucleation [22,40].…”

Development of Ti-15Zr-Mo alloys for applying as implantable biomedical devices

Excellent specific strength-ductility synergy in novel complex concentrated alloy after suction casting