Oxidation behavior of a burn resistant highly stabilized β titanium alloy

“…This leads to a decrease in weight gain (Fig. 2), which is similar to that of burn resistant Ti40 alloy oxidation over 700 • C where oxidized products of V 2 O 5 vaporize [5,6].…”

“…However, the semi-solid deformation behavior of titanium alloys, which is widely used in many fields, has not been investigated yet. The oxidation behavior of Ti alloys has been researched in detail [3][4][5][6] and Ti alloys were in solid state in all these researches. However, there are no reports on the semi-solid oxidation behavior of Ti alloys.…”

Semi-solid oxidation and deformation behavior of Ti14 alloy

“…This leads to a decrease in weight gain (Fig. 2), which is similar to that of burn resistant Ti40 alloy oxidation over 700 • C where oxidized products of V 2 O 5 vaporize [5,6].…”

“…However, the semi-solid deformation behavior of titanium alloys, which is widely used in many fields, has not been investigated yet. The oxidation behavior of Ti alloys has been researched in detail [3][4][5][6] and Ti alloys were in solid state in all these researches. However, there are no reports on the semi-solid oxidation behavior of Ti alloys.…”

Semi-solid oxidation and deformation behavior of Ti14 alloy

“…Series high performance Ti alloys have been developed in recent decades such as ultra-high strength Ti alloys (the tensile strength over 1250 MPa) [2][3][4], high temperature Ti alloys [5,6] and burn-resistant Ti alloys [7,8].…”

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

“…Different compositions of Ti-V-Cr burnresistant alloys have been developed in different countries: Ti-35V-15Cr (wt.%), designated as alloy C, was developed in USA by Pratt and Whitney [1]; Ti-25V-15Cr-C-Al (wt.%) was developed by IRC in UK [2] and Ti-25V-15Cr-xSi (wt.%) by the present authors from NIN in China [3]. There have been some reports on their processability [4], burn-resistant mechanisms [5][6][7][8], oxidation behavior [9] and microstructure-properties relationships [10].…”

Thermal stability and creep behavior of Ti–V–Cr burn-resistant alloys