Titanium alloy, parts made thereof and method of use

The invention claimed is: 1. A titanium alloy consisting essentially of: aluminum from 5.0 to 6.0% by weight; zirconium from 3.75 to 4.75% by weight; vanadium from 5.2 to 6.2% by weight; molybdenum from 1.0 to 1.5% by weight; iron from 0.10 to 0.25% by weight; one of palladium from 0.04 to 0.20% by weight and ruthenium from 0.06 to 0.20% by weight; by weight no more than: 0.13% oxygen, 0.05% nitrogen, 0.03% carbon, 0.015% hydrogen, 0.015% boron, and 0.1% tin; and a titanium remainder balance, wherein: the titanium alloy has a molybdenum equivalency in a range of 5.0 to 5.9, wherein the molybdenum equivalency=molybdenum weight % in the alloy+(0.67)(vanadium weight % in the alloy)+(2.5)(iron weight % in the alloy); the titanium alloy has an aluminum equivalency in a range of 6.5 to 7.5, wherein the aluminum equivalency=aluminum weight % in the alloy+(0.33)(tin weight % in the alloy)+(0.17)(zirconium weight % in the alloy)+(10.0)(oxygen weight % in the alloy); and wherein, when in the form of a solution heat treated and aged 0.5 inch plate: (a) the titanium alloy has a yield strength of at least 130 ksi at room temperature; (b) the titanium alloy has a density of ≤0.165 lb/in 3 ; (c) the titanium alloy has a fracture toughness at room temperature in air and seawater of at least 50 ksi √in; (d) in 25-33% NaCl brine at a temperature of at least 550° F., the titanium alloy achieves: (i) a sour/air ductility reduction in area ratio of ≥0.90 by slow strain rate test (SSRT) according to NACE TM 0198-2011; (ii) a sour/air ductility time to failure ratio of ≥0.90 by SSRT according to NACE TM 0198-2011; and (iii) a brittle fracture area of <2% of total area; (e) at room temperature, an after post-weld heat treatment weld of the titanium alloy has: (i) a fracture toughness in air of at least 55 ksi √in; and (ii) an elongation of at least 4.0%; and (f) a corrosion rate of the titanium alloy after 24 hours in boiling 2 wt. % HCl is ≤20 mils per year. 2. The titanium alloy of claim 1 wherein a total amount of any single element in the titanium alloy other than titanium, aluminum, zirconium, vanadium, molybdenum and the one of palladium and ruthenium is no more than 1.0% by weight. 3. The titanium alloy of claim 1 wherein the titanium alloy has no local crevice attack after the alloy has been submerged for 60 days in naturally-aerated seawater which has a pH of 3 and is maintained at a temperature of 500° F. throughout the 60 days. 4. The titanium alloy of claim 1 wherein the titanium alloy has a yield strength of at least 90 ksi at a temperature of 500° F. 5. The titanium alloy of claim 1 wherein the titanium alloy is formed as a tubular component. 6. The titanium alloy of claim 1 wherein the titanium alloy is formed as a component which comprises at least a portion of one of an offshore pipe, a subsea flow line, a drill pipe, an offshore riser, an oil country tubular goods (OCTG) production tubular, an OCTG well casing, an offshore landing string, an offshore well-workover string and downhole equipment. 7. The titanium alloy of claim 1 wherein the titanium alloy is formed as a component having an operational position in which the component is in contact with aqueous chloride media. 8. The titanium alloy of claim 1 wherein the titanium alloy is formed as a component having an operational position in which the component is under a pressure of at least 1,200 psi.