Add to ORKGIn the present study, Ti-16Sn-4Nb alloy was prepared by mechanical alloying (MA). Optical microscopy, scanning electron microscopy combined with energy dispersive X-ray analysis (SEM-EDX), and X-ray diffraction analysis (XRD) were used to characterise the phase transformation and the microstructure evolution. Results indicated that ball milling to 8 h led to the formation of a supersaturated hcp α-Ti and partial amorphous phase due to the solid solution of Sn and Nb into Ti lattice. The microstructure of the bulk sintered Ti-16Sn-4Nb alloy samples made from the powders at shorter ball milling times, i.e. 20 min- 2 h, exhibited a primary α surrounded by a Widmanstätten structure (transformed β); while in the samples mad...
Four titanium alloys (Ti-Ta, Ti-Ta-Sn, Ti-Ta-Mn, and Ti-Nb-Sn) were synthesized by mechanical alloyi...
Ti and some of its alloys are widely used as orthopedic implants. In the present study, Ti-26Nb-5Ag ...
The structural characteristics of biomedical porous materials are crucial for bone tissue to grow in...
In the present study, Ti-16Sn-4Nb alloy was prepared by mechanical alloying (MA). Optical microscopy...
he microstructural evolution and characteristics of the Ti–16Sn–4Nb powder particles and...
Titanium-based alloys are widely used in biomedical applications because of their good properties su...
The microstructural evolution and characteristics of the Ti–16Sn–4Nb powder particles an...
In the present study, the influence of process control agent (PCA) on the characteristics of powder ...
The study presents the results of the influence of high energy milling on the structure of the new T...
New Ti based alloys with non-cytotoxic and biocompatible elements, such as Nb, Zr, Ta, Sn and Mo, ha...
This study was conducted to observe the phase transformation of Ti-35 %Nb-2.5 %Sn during milling for...
This study was conducted to observe the phase transformation of Ti-35 %Nb-2.5 %Sn during milling for...
Ti50 Cu25 Ni20Sn5 (at.%) powder was subjected to high-energy ball milling at room temperature and -7...
The present study examines the influence of different contents and types of process control agent (P...
Four titanium alloys (Ti-Ta, Ti-Ta-Sn, Ti-Ta-Mn, and Ti-Nb-Sn) were synthesized by mechanical alloyi...
Four titanium alloys (Ti-Ta, Ti-Ta-Sn, Ti-Ta-Mn, and Ti-Nb-Sn) were synthesized by mechanical alloyi...
Ti and some of its alloys are widely used as orthopedic implants. In the present study, Ti-26Nb-5Ag ...
The structural characteristics of biomedical porous materials are crucial for bone tissue to grow in...
In the present study, Ti-16Sn-4Nb alloy was prepared by mechanical alloying (MA). Optical microscopy...
he microstructural evolution and characteristics of the Ti–16Sn–4Nb powder particles and...
Titanium-based alloys are widely used in biomedical applications because of their good properties su...
The microstructural evolution and characteristics of the Ti–16Sn–4Nb powder particles an...
In the present study, the influence of process control agent (PCA) on the characteristics of powder ...
The study presents the results of the influence of high energy milling on the structure of the new T...
New Ti based alloys with non-cytotoxic and biocompatible elements, such as Nb, Zr, Ta, Sn and Mo, ha...
This study was conducted to observe the phase transformation of Ti-35 %Nb-2.5 %Sn during milling for...
This study was conducted to observe the phase transformation of Ti-35 %Nb-2.5 %Sn during milling for...
Ti50 Cu25 Ni20Sn5 (at.%) powder was subjected to high-energy ball milling at room temperature and -7...
The present study examines the influence of different contents and types of process control agent (P...
Four titanium alloys (Ti-Ta, Ti-Ta-Sn, Ti-Ta-Mn, and Ti-Nb-Sn) were synthesized by mechanical alloyi...
Four titanium alloys (Ti-Ta, Ti-Ta-Sn, Ti-Ta-Mn, and Ti-Nb-Sn) were synthesized by mechanical alloyi...
Ti and some of its alloys are widely used as orthopedic implants. In the present study, Ti-26Nb-5Ag ...
The structural characteristics of biomedical porous materials are crucial for bone tissue to grow in...