G
Gary S. Was
Researcher at University of Michigan
Publications - 487
Citations - 17725
Gary S. Was is an academic researcher from University of Michigan. The author has contributed to research in topics: Grain boundary & Stress corrosion cracking. The author has an hindex of 56, co-authored 474 publications receiving 14795 citations. Previous affiliations of Gary S. Was include Massachusetts Institute of Technology.
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Chemical and Structural Effects of Phosphorus on the Corrosion Behavior of Ion Beam Mixed Fe‐Cr‐P Alloys
TL;DR: An experimental program was conducted to determine the mechanisms by which phosphorus affects the corrosion and passi-ation behavior of Fe Cr P alloys as mentioned in this paper, which indicated that the primary effect of phosphorus is chemical in nature, and not structural.
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Determination of dose rate effects on Zircaloy oxidation using proton irradiation and oxygen transport modeling
TL;DR: In this paper, an extension of a recently proposed Zr oxidation kinetic model was presented to account for acceleration of oxide layer growth due to irradiation, accompanied by a set of controlled experiments carried out in a corrosion loop coupled to an accelerator beam line for parameterization and validation.
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Dual phase formation in multilayered Ni‐Al by ion beam mixing
TL;DR: In this article, the authors used ion beam mixing to homogenize multilayered thin films of nickel and aluminum, vaporized onto pure nickel substrates, resulting in a dual phase structure of γ and γ' with grain sizes in the range 640 to 710 A.
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Formation of buried TiN in glass by ion implantation to reduce solar load
TL;DR: In this article, the authors used soda lime glass to implant a cubic cubic cubic TiN layer, 140 nm wide, at doses greater than 9×1016 cm−2 to reduce solar load and infrared transmission.
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Clarifying the mitigation effect of proton irradiation on the intergranular oxidation of 316L stainless steel in high temperature water
TL;DR: The role of proton irradiation in the intergranular oxidation of 316L stainless steel after long-term immersion in simulated PWR primary water was clarified by comparing the microstructural and microchemical features of oxide between the irradiated grain boundary (GB) and its un-irradiated counterpart as discussed by the authors .