Institution
Atomic Energy of Canada Limited
Company•Ottawa, Ontario, Canada•
About: Atomic Energy of Canada Limited is a company organization based out in Ottawa, Ontario, Canada. It is known for research contribution in the topics: Zirconium alloy & Neutron. The organization has 4845 authors who have published 4826 publications receiving 102951 citations.
Topics: Zirconium alloy, Neutron, Zirconium, Hydrogen, Neutron scattering
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the Monte-Carlo model of high-temperature radiolysis of water by low-LET radiation was re-examined in an attempt to reconcile the computed g-values of the various radiolytic products (e aq -, OH, H, H2, and H2O2) with recently re-assessed experimental data up to 350°C.
45 citations
TL;DR: The micronucleus assay, a common cytogenetic technique, was used to examine the dose-responses in fibroblasts from three ungulate species exposed to high doses of ionizing radiation, indicating that very small doses are protective for the endpoint examined.
45 citations
TL;DR: In this paper, the authors used U-series data to verify the finding of fast flowpaths through the tuff to ESF level, indicated by the presence of 36Cl in pore fluids.
45 citations
TL;DR: In this paper, a self-consistent polycrystalline model is used to simulate irradiation growth of Zircaloy-2 samples irradiated at about 330 K. The growth rate attains a steady state value after it goes through a transient that depends on the initial state of the material.
45 citations
TL;DR: In this article, a burst criterion mode was developed for Zircaloy claddings of a pressurized water reactor in a loss-of-coolant accident, which assumes that the time of burst is reached when the local stress equals the limiting burst stress.
Abstract: A burst criterion mode developed for Zircaloy claddings of a pressurized water reactor in a loss-of-coolant accident assumes that the time of burst is reached when the local stress equals the limiting burst stress. The burst stress is assumed to depend on the temperature and oxygen concentration of the Zircaloy. With the histories of temperature and pressure known, the strain, stress, and oxygen content can be calculated by integration of the creep equation and correlation of the oxidation kinetics. Once the time of burst has been calculated, all burst data, that is, strain, stress, temperature, pressure, and oxygen content, are determined. The burst temperatures and burst strains predicted by the model are in good agreement with the test data. 7 refs.
45 citations
Authors
Showing all 4845 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Henry P. Schwarcz | 78 | 351 | 20863 |
| Jonathan N. Glickman | 72 | 172 | 24025 |
| Andrej Atrens | 69 | 417 | 21741 |
| See Leang Chin | 67 | 460 | 17181 |
| Purnendu K. Dasgupta | 62 | 506 | 16779 |
| John Katsaras | 55 | 220 | 9263 |
| Jing-Li Luo | 55 | 436 | 10963 |
| Charles Gale | 53 | 331 | 10903 |
| Sanjoy Banerjee | 52 | 229 | 8880 |
| Yoshio Takahashi | 50 | 403 | 9801 |
| Peter Sigmund | 49 | 220 | 11795 |
| Michael P. Païdoussis | 46 | 165 | 8825 |
| Wei-Kan Chu | 46 | 445 | 8616 |
| A. G. W. Cameron | 45 | 123 | 10111 |
| Erland M. Schulson | 44 | 245 | 6966 |