University of Nevada, Las Vegas
Las Vegas (Nev.)
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The focus of this work is to determine the effect of elevated temperatures on the tensile properties of Alloy EP-823 and other martensitic alloys having similar compositions. The information obtained through this work describing the mechanism of elevated-temperature deformation will assist in developing suitable target structural materials possessing enhanced LBE corrosion resistance at process temperatures, allowing the continued development and eventual deployment of these technologies.
Accelerator-driven systems; Alloy EP-823; Deformations (Mechanics); Metals — Effect of high temperatures on; Nuclear reactors — Materials — Testing; Martensitic stainless steel — Ductility; Strength of materials
Deformations (Mechanics); Metals--Effect of high temperatures on; Nuclear reactors--Materials--Testing
Materials Science and Engineering | Metallurgy | Nuclear Engineering | Oil, Gas, and Energy
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Roy, A. K.,
Development of a Mechanistic Understanding of High-Temperature Deformation of Alloy EP-823.
Available at: https://digitalscholarship.unlv.edu/hrc_trp_sciences_materials/88