DOI:10.5488/CMP.23.13604 arXiv:2003.02060
Title:
Dislocation loops growth and radiation growth in neutron irradiated Zr-Nb alloys: rate theory modelling
Author(s):
| L. Wu (The First Institute, Nuclear Power Institute of China, 328, the 1st Section, Changshundadao Road, Shuangliu, 610213 Chengdu, China) , | |
| D.O. Kharchenko (Institute of Applied Physics of the National Academy of Sciences of Ukraine, 58 Petropavlivska St., 40000 Sumy, Ukraine) , | |
| V.O. Kharchenko (Institute of Applied Physics of the National Academy of Sciences of Ukraine, 58 Petropavlivska St., 40000 Sumy, Ukraine) , | |
| O.B. Lysenko (Institute of Applied Physics of the National Academy of Sciences of Ukraine, 58 Petropavlivska St., 40000 Sumy, Ukraine) , | |
| V. Kupriienko (Institute of Applied Physics of the National Academy of Sciences of Ukraine, 58 Petropavlivska St., 40000 Sumy, Ukraine) , | |
| S. Kokhan (Institute of Applied Physics of the National Academy of Sciences of Ukraine, 58 Petropavlivska St., 40000 Sumy, Ukraine) , | |
| I.A. Shuda (Sumy State University, 2 Rymskogo-Korsakova St., 40007 Sumy, Ukraine) , | |
| R. Pan (The First Institute, Nuclear Power Institute of China, 328, the 1st Section, Changshundadao Road, Shuangliu, 610213 Chengdu, China) |
A generalized model to study dislocation loops growth in irradiated binary Zr-based alloys is presented. It takes into account temperature effects, efficiencies of loops to absorb point defects dependent on the loop size, an influence of locality of grain boundary sink strength, and concentration of the alloying element. This model is used to describe the dynamics of loop radii growth in zirconium-niobium alloys under neutron irradiation at reactor conditions. A growth of both loop radii and strains is studied at different grain sizes, location from grain boundaries, and concentration of niobium. It is shown that locality of grain boundary sinks results in a non-uniform deformation of the crystal inside the grains. Additionally, an introduction of niobium as an alloying element decreases the loop radii but promotes the growth of local strains inside the grains.
Key words: irradiation, zirconium alloys, point defects, dislocation loops, growth strain
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