Applications explained for Gas Turbine Engines, Heat Transfer, DSA-dimensional stable anodes, Pulp and Paper, Desalination, Extraction and Electrowinning of Metals, Medical, Hydrocarbon Processing, Marine Applications, Chemical Processing, Steam Turbines, Automotive, Castings, Sports Equipment, aerospace industry, Airframes, Space and Thick Section Titanium
Characteristics: Alpha and Beta Structure, corrosion and erosion resistance, reasons for using Titanium
Classification: explaining the different structures of Alpha, Beta and Alpha-Beta
Emerging Markets: Aerospace, Downhole, FGD (Flue Gas Desulfurization), Food and Pharmaceutical, Nuclear Waste Storage, Commercial Applications, Marine, Metal Matrix Composites, Titanium Aluminides, Architectural
CorrosionResistance: shown and explained for Acids, Alkalis, Halogens, Natural waters, Corrosive gases, Reducing atmospheres, Passivation with inhibitors, Organic Media and a few more
Engineers Information on Aerospace, Superior Erosion Resistance, High Heat Transfer Efficiency, Superior Strength-to-Weight Ratios
Introduction to the different Grades of Titanium. Each Grade listed by its chemistry (Composition), Physical Data (Properties), Mechanical Data, and Fabrication Information
Ti 6-2-4-2 Ti 6Al 2Sn 4Zr 0.08Si has an outstanding combination of tensile strength, creep strength, toughness, and high-temperature stability for long term application
Ti 15-3-3-3 Ti-15V-3Cr-3Sn-3Al is a metastable beta titanium alloy that offers substantial weight reductions over other engineering materials
IMI 685 Ti-6Al-5Zr-0.5Mo-0.25Si is a near alpha alloy, combines excellent tensile strength with high temperature creep resistance
IMI 829 Ti-5.5Al-3.5Sn-3Zr-1Nb-0.25Mo-0.3Si is a weldable, high strength, high temperature creep resistant alloy specifically developed for gas turbine engine components
CP Grade 1 Unalloyed titanium offering optimum ductility and cold formability with useful strength, high-impact toughness, and excellent weldability
CP Grade 12 good corrosion resistance at high temperature is requested. Unalloyed titanium offering optimum ductility and cold formability with useful strength, high-impact toughness, and excellent weldability
CP Grade 2 Unalloyed titanium "workhorse" for industrial service, offering an excellent balance of moderate strength and reasonable ductility and formability with excellent weldability
CP Grade 3 Unalloyed titanium offering improved strength and ASME Code design allowables with moderate ductility and excellent weldability
CP Grade 4 Unalloyed titanium offering reasonably high strength with good weldability
CP Grade 7 / 11 / 16 This alloy has mechanical properties similar to Grade 2 but has improved resistance to general and localized crevice corrosion in a wide range of reducing acid environments including chlorides, with a good balance of moderate strength, reasonable ductility and excellent weldability.
6Al4V Grade 5 / 23 This alpha-beta alloy is the workhorse alloy of the titanium industry. The alloy is fully heat-treatable. Applications turbine airframes medical industrial
Alloy Grade 9 / 18 This alloy is sometimes referred to as "half 6-4". It offers 20 to 50 per cent higher strength than C.P. grades, but is more formable and weldable than Ti6Al4V
Alloy Grade 19 / 20 This meta stable-beta alloy is strip-producible and cold-formable
