Elastic stiffness tensors of Zr-\(x\)Nb alloy in presence of defects: A molecular dynamics study

In a nuclear reactor, the Zr-\(x\)Nb alloy, which is used as a structural material in the core region, is irradiated by energetic particles that cause the atoms to be displaced from their lattice sites and giving rise to crystal defects. The local changes in the atomic arrangements lead to local def...

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Bibliographic Details
Published in:arXiv.org 2019-12
Main Authors: Mohammad-Reza Basaadat, Payami, Mahmoud
Format: Article
Language:English
Subjects:
Accumulation
Crystal defects
Crystal lattices
Dislocation loops
Displacements (lattice)
Elastic properties
Energetic particles
Lattice sites
Lattice vacancies
Mechanical properties
Molecular dynamics
Morphology
Niobium base alloys
Nuclear reactors
Radiation damage
Radiation effects
Stiffness
Tensors
Zirconium
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Summary:In a nuclear reactor, the Zr-\(x\)Nb alloy, which is used as a structural material in the core region, is irradiated by energetic particles that cause the atoms to be displaced from their lattice sites and giving rise to crystal defects. The local changes in the atomic arrangements lead to local deformations of the solid and thereby changes of its local mechanical properties. Understanding the mechanisms behind this evolution in the core region of a reactor, and its monitoring or controlling is a critical task in nuclear industry. In this work, using extensive molecular dynamics simulations, we have studied the effects of radiation damage on the local mechanical properties of Zr-\(x\)Nb alloy. In the first step, the effect of Nb-concentration on the mechanical stability of homogeneous Zr-\(x\)Nb alloy is investigated. In the second step, we have studied the local changes of the elastic constants due to local changes of the microstructure. These local changes include presence and accumulation of vacancies in the form of dislocation loops or voids, accumulation of Nb atoms in the form of clusters of different morphologies. This study covers both cases of \(T=0^\circ\)K and finite temperatures up to \(T=600^\circ\)K.
ISSN:2331-8422
DOI:10.48550/arxiv.1907.11977