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Mechanical and physical property data, necessary to fulfill the requirements of Phase II of the Department of Defense Titanium Alloy Sheet Rolling Program, were obtained for selected solution treated and aged titanium alloys in sheet form. Four alloys were investigated: BI20VCA, (Ti-13V-11Cr-3Al), Ti-6Al-4v, Ti-2.5Al-16V, and Ti-4Al-3Mo-1V. They were suppled by the producers in the heat treated condtion from fhree or more heats and three thicknesses of each alloy. Static mechanical property data for tension, compression, bearing, shear and crippling; creep and rupture data for tension, compression, bearing and shear; and axial-load fatigue data were obtained at room and elevated temperatures. Fastener and weld joint data from -320F to 80F and physical properties from -420F to 1200F were obtained. Volume 1 summarizes mechanical and physical properties in a form consistant within those given MIL-HDBK-5.
Mechanical and physical property data, necessary to fulfill the requirements of Phase II of the Department of Defense Titanium Alloy Sheet Rolling Program, were obtained for selected solution treated and aged titanium alloys in sheet form. Four alloys were investigated: BI20VCA, (Ti-13V-11Cr-3Al), Ti-6Al-4v, Ti-2.5Al-16V, and Ti-4Al-3Mo-1V. They were suppled by the producers in the heat treated condtion from fhree or more heats and three thicknesses of each alloy. Static mechanical property data for tension, compression, bearing, shear and crippling; creep and rupture data for tension, compression, bearing and shear; and axial-load fatigue data were obtained at room and elevated temperatures. Fastener and weld joint data from -320F to 80F and physical properties from -420F to 1200F were obtained. Volume 2b contains procedures and results for creep and fatigue tests.
Mechanical and physical property data, necessary to fulfill the requirements of Phase II of the Department of Defense Titanium Alloy Sheet Rolling Program, were obtained for selected solution treated and aged titanium alloys in sheet form. Four alloys were investigated: BI20VCA, (Ti-13V-11Cr-3Al), Ti-6Al-4v, Ti-2.5Al-16V, and Ti-4Al-3Mo-1V. They were suppled by the producers in the heat treated condtion from fhree or more heats and three thicknesses of each alloy. Static mechanical property data for tension, compression, bearing, shear and crippling; creep and rupture data for tension, compression, bearing and shear; and axial-load fatigue data were obtained at room and elevated temperatures. Fastener and weld joint data from -320F to 80F and physical properties from -420F to 1200F were obtained. Experimental procedures and test results for static mechanical properties and physical properties are reported in Volume 2a.
Mechanical and physical property data, necessary to fulfill the requirements of Phase II of the Department of Defense Titanium Alloy Sheet Rolling Program, were obtained for selected solution treated and aged titanium alloys in sheet form. Four alloys were investigated: BI20VCA, (Ti-13V-11Cr-3Al), Ti-6Al-4v, Ti-2.5Al-16V, and Ti-4Al-3Mo-1V. They were suppled by the producers in the heat treated condtion from fhree or more heats and three thicknesses of each alloy. Static mechanical property data for tension, compression, bearing, shear and crippling; creep and rupture data for tension, compression, bearing and shear; and axial-load fatigue data were obtained at room and elevated temperatures. Fastener and weld joint data from -320F to 80F and physical properties from -420F to 1200F were obtained. Volume 2b contains procedures and results for creep and fatigue tests.
Mechanical and physical property data, necessary to fulfill the requirements of Phase II of the Department of Defense Titanium Alloy Sheet Rolling Program, were obtained for selected solution treated and aged titanium alloys in sheet form. Four alloys were investigated: BI20VCA, (Ti-13V-11Cr-3Al), Ti-6Al-4v, Ti-2.5Al-16V, and Ti-4Al-3Mo-1V. They were suppled by the producers in the heat treated condtion from fhree or more heats and three thicknesses of each alloy. Static mechanical property data for tension, compression, bearing, shear and crippling; creep and rupture data for tension, compression, bearing and shear; and axial-load fatigue data were obtained at room and elevated temperatures. Fastener and weld joint data from -320F to 80F and physical properties from -420F to 1200F were obtained. Volume 1 summarizes mechanical and physical properties in a form consistant within those given MIL-HDBK-5.
IN THE SOLUTION TREATED AND AGED CONDITION, Ti4Al-3Mo-1V has a higher ultimate strength than does Ti-2.5Al-16V, but the two alloys are about even in yield strength and elongation. In the solution-treated condition, Ti-4Al-3Mo-1V is unquestionably stronger than Ti-2.5Al-16V. These conclusions are independent of producer. There is not much difference in the same alloy produced by different companies. The alloys developed under the Titanium-Alloy Sheet-Rolling Program would not endure the most critical interpretation of release property specifications. On the other hand, these alloys come reasonably close to specifications. A complete set of release property specifications is available only for specimens that have been solution treated and aged. Such specimens do not all exhibit the desired ultimate and yield strength, but the percentage of rejects is small enough to be encouraging. (Author).