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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Stress Localization Resulting from Grain Boundary Dislocation Interactions in Relaxed and Defective Grain Boundaries
TL;DR: In this paper, large-scale molecular dynamics simulations are used to study strain and stress localization in atomistic polycrystalline FCC digital samples in a thin-film configuration, deformed in tension.
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The influence of carbon on cavity evolution in ion-irradiated ferritic-martensitic steels
TL;DR: In this article, the effect of carbon on cavity evolution in ion-irradiated ferritic-martensitic steels T91 and HT9 was evaluated by comparing the results of the samples that experienced excess carbon uptake to irradiated samples which experienced no carbon uptake.
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Roadmap for the application of ion beam technologies to the challenges of nuclear energy technologies
TL;DR: The use of ion beams to estimate materials performance for nuclear energy applications is advancing at a rapid rate with ion irradiations having been shown to produce radiation effects data of direct relevance for understanding neutron-induced displacement damage as discussed by the authors.
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The influence of boron on the grain boundary chemistry and microstructure of ni- 16cr- 9fe- 0.03c
R. M. Kruger,Gary S. Was +1 more
TL;DR: In this article, high purity Ni-16Cr-9Fe-0.03C was doped with 50 wppm B in order to determine the effects of B on the grain boundary chemistry and microstructure following both high temperature anneals (1373 to 1473 K) and lower temperature heat treatments (873 to 973 K).
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Improvements in the design and analysis of the segmented expanding mandrel test
TL;DR: In this paper, the segmented expanding mandrel test is modified and improved to yield more quantitative information on the local stress and strain concentrations in Zircaloy tubing samples, which represents a significant increase in the quantitative information produced in the Segmented Expanding Mandrel technique.