J. Ogren scite author profile

The room temperature tensile properties of Ti-6Al-4V alloy prepared under two different processing routes were evaluated and compared. One group of samples was prepared by conventional casting-forging-rolling into flat plates. The other group was prepared by using TritonÕs Laser Free-Form Fabrication (LF3)Ô processes, i.e., a laser was used to melt pre-alloyed powders of the required metallic composition as they were dropped onto a moveable substrate programmed to move in such a manner as to form a solid alloy plate. Five populations of Ti-6Al-4V were evaluated: a standard wrought form, an as-deposited form, a machined as-deposited form, a heat-treated as-deposited form, and a machined as-deposited and heattreated form. The poorest mechanical properties occurred with the rough surfaces, likely due to existing microcracks and stress concentrations. The LF3Ô as-deposited material had mechanical properties comparable to, if not higher than, the mechanical properties of the wrought material. Further evaluations of the laser-formed material for complex spacecraft piece parts were warranted, specifically in regards to improving the surface finish of the materials.

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Design of Multistep Aging Treatments of 2099 (C458) Al-Li Alloy

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On the correlation between fracture toughness and precipitation hardening heat treatments in 15-5PH Stainless Steel

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Mahmodieh

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et al. 2007

Engineering Failure Analysis

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J. Ogren

Tensile Properties and Microstructures of Laser-Formed Ti-6Al-4V

Design of Multistep Aging Treatments of 2099 (C458) Al-Li Alloy

On the correlation of mechanical and physical properties of 7075-T6 Al alloy

The Effect of Thermal Exposure on the Mechanical Properties of 2099-T6 Die Forgings, 2099-T83 Extrusions, 7075-T7651 Plate, 7085-T7452 Die Forgings, 7085-T7651 Plate, and 2397-T87 Plate Aluminum Alloys

On the correlation between fracture toughness and precipitation hardening heat treatments in 15-5PH Stainless Steel

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