α+β or β titanium alloy and method for producing same

The invention claimed is: 1. α+β titanium alloy or β titanium alloy consisting of 5.1 to 5.4 mass % of aluminum, 3.4 to 3.6 mass % of vanadium, 10 to 15 mass % of iron, titanium as a remainder and inevitable impurities, wherein a deformation resistance of the titanium alloy at 900 to 980° C. in a compression test is 260 to 500 MPa. 2. α+β titanium alloy or β titanium alloy according to claim 1 , wherein the titanium alloy is produced by hot extrusion of titanium alloy powder containing aluminum and vanadium mixed with iron powder, and wherein the titanium alloy powder except for the iron powder is produced by a hydrogenation-dehydrogenation method. 3. α+β titanium alloy or β titanium alloy according to claim 1 , wherein an average concentration of iron measured within a 500 um length is always within ±20% of a nominal concentration of the titanium alloy. 4. α+β titanium alloy or β titanium alloy according to claim 2 , wherein an average concentration of iron measured within a 500 um length is always within ±20% of a nominal concentration of the titanium alloy. 5. α+β titanium alloy or β titanium alloy, comprising 5.1 to 5.4 mass % of aluminum, 3.4 to 3.6 mass % of vanadium, 10 to 15 mass % of iron, titanium as a remainder and inevitable impurities, wherein a deformation resistance of the titanium alloy at 900 to 980° C. in a compression test is 260 to 500 MPa. 6. α+β titanium alloy or β titanium alloy according to claim 5 , wherein the titanium alloy is produced by hot extrusion of titanium alloy powder containing aluminum and vanadium mixed with iron powder, and wherein the titanium alloy powder except for the iron powder is produced by a hydrogenation-dehydrogenation method. 7. α+β titanium alloy or β titanium alloy according to claim 5 , wherein an average concentration of iron measured within a 500 um length is always within ±20% of a nominal concentration of the titanium alloy. 8. α+β titanium alloy or β titanium alloy according to claim 6 , wherein an average concentration of iron measured within a 500 um length is always within ±20% of a nominal concentration of the titanium alloy.