Materials Properties Handbook: Titanium AlloysGerhard Welsch, Rodney Boyer, E. W. Collings A compilation of properties and fabrication procedures for virtually all of the alloys which have been developed over the 45-year time span of the titanium industry up to early 1993. The physical, thermal, mechanical, corrosion, fatigue, and fracture properties of almost all titanium alloys are pres |
Contents
Forging | 81 |
Forming | 87 |
Chemical Reactivity | 292 |
684 | 554 |
Cast and PM Fatigue | 565 |
Mechanical Properties | 739 |
219 | 881 |
Ti15Mo5Zr3Al | 944 |
1035 | 1093 |
Superplastic Forming | 1101 |
Heat Treating | 1111 |
Machining | 1119 |
Powder Metallurgy | 1137 |
Example of Wiso | 1159 |
Rolling | 1167 |
Metallography | 1051 |
Common terms and phrases
acid Aerospace Structural Metals aged air cooled annealed applications ASTM Battelle Columbus Laboratories Beta Boiling cast Code cold composition Compressive concentration condition Corrosion crack creep curves cycles deformation depending direction ductility Effect elastic Elongation exposure Fatigue followed forging Fracture toughness Grade grain growth hardness heat treated heat treatment higher hydrogen increase indicated levels limit Longitudinal martensitic material Maximum stress measurements microstructure Mill modulus MPa ksi Notched Note oxygen phase plate precipitation properties pure quenched range ratio Reduction reported resistance rolled room temperature sheet solution treated Source Specific specimens stability strain stress Structural Structural Metals Handbook studies surface Table temperature tensile properties Tensile yield strength Thermal thick tion Titanium Alloys Trans transformation transus ture Typical Ultimate tensile strength values welding