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: Pulse radiolysis has been used to measure the rates of reactions of O 2 − with electron donors and acceptors, either directly or by a competition kinetic method using p -benzoquinone.
34 citations
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TL;DR: Using the micronucleus assay, decreased levels of DNA damage were found after high dose ionizing radiation exposure of liver cells taken from frogs inhabiting a natural environment with above-background levels of ionizer radiation.
34 citations
01 Jan 1995
TL;DR: In this paper, a comprehensive analysis of the effects of temperature, dose rate and particle type on multi-phenomena (swelling, creep, growth, microstructure evolution, RED, RIS) is presented to discuss the strength and weakness of various models.
Abstract: The consequences of displacement damage produced by energetic particles on physical and mechanical properties of metals and alloys have been investigated both experimentally and theoretically for several decades. Over the years, a number of theoretical models have been proposed to rationalize the rate and magnitude of defect accumulation under different irradiation conditions. In recent years, significant advances have been made in understanding the nature of the damage produced in this form of multi-displacement cascades. The new knowledge regarding the intra-cascade recombination and clustering of self-interstitial atoms and vacancies during the cooling-down phase of cascades makes it necessary to re-examine the appropriateness of the available models for describing the accumulation of damage under cascade damage conditions. In this paper, recent advances in the understanding of damage production and its consequences are reviewed. A historic perspective is adopted. A comprehensive analysis of the effects of temperature, dose rate and particle type on multi-phenomena (swelling, creep, growth, microstructure evolution, RED, RIS) is presented to discuss the strength and weakness of various models, as they have evolved with the understanding of the damage processes. It has been shown that the irradiation damage modeling has progressed from the standard rate theory model to the BEK model to the production bias model with an increasing degree of sophistication as increasingly more realistic features of the irradiation damage production process were incorporated. It is shown that the newly proposed production bias model uniquely includes the necessary features of cascade damage production in its treatment of the damage accumulation.
34 citations
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TL;DR: In this paper, computer simulations of radiolysis occurring in a 2 mol dm −3 lithium hydroxide aqueous breeder blanket at projected International Thermonuclear Experimental Reactor (ITER) dose rates and radiation quality have been undertaken using the program, FACSIMILE.
34 citations
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TL;DR: In this paper, an analysis of annular-dispersed flow is presented in which the flow is modelled as a two-dimensional film and a one-dimensional, droplet laden gas core.
34 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 |