Structure and mechanical properties of Ti–6Al–4V alloy after zirconium addition

“…In addition to these traditional nuclear materials, Zr alloys [4][5][6][7][8][9][10][11][12], such as ZrTiAlV and ZrTiCr alloys, have been also investigated to expand its applications, i.e., in structural and medical materials [9][10][11][12][13][14][15].…”

Microstructure and tensile properties of hot-rolled Zr50–Ti50 binary alloy

“…In addition to these traditional nuclear materials, Zr alloys [4][5][6][7][8][9][10][11][12], such as ZrTiAlV and ZrTiCr alloys, have been also investigated to expand its applications, i.e., in structural and medical materials [9][10][11][12][13][14][15].…”

Microstructure and tensile properties of hot-rolled Zr50–Ti50 binary alloy

“…Hsu et al [8] reported that Ti-Zr binary alloys have a stronger solid solution strengthening response. In a previous study, a series of titanium alloys with zirconium addition were obtained in a laboratory environment [9]. And these titanium alloys exhibited excellent mechanical properties.…”

Aging effects on the microstructures and mechanical properties of the Ti–20Zr–6.5Al–4V alloy

“…The lattice constants of the constituent phases in the examined alloys are also obtained 7 / 18 according to the XRD patterns and results are also showed in table 2. The lattice constant a of the α' martensite in the F05 alloy is appproximate 0.31183 nm which is higher than that of the TiZr based alloys in previous literature [16]. The key factor of that higher value is the more addition of Zr element with larger atomic radius R. From the table 2, it is easy to find that the lattice constant a of the β phase slightly decreases with the increasing of Fe content.…”

“…Attributing to the similar physicochemical properties between elements of Ti and Zr, recently developed TiZr based alloys exhibit favorable mechanical properties [14][15][16][17]. The representative Ti-20Zr-6.5Al-4V [18] and Ti-30Zr-5Al-3V [19] alloys have tensile strength over 1600 MPa, and specific strength over 340 MPa/(g/cm 3 ).…”

Preparation of low cost TiZrAlFe alloy with ultra-high strength and favorable ductility