Polymeric Interlayer Strengthening with Boron Neutron Capture Radiation Treatment for Laminated Glass

While many of the leading factors for material degradation in irradiated reactor components have been identified through past studies, spontaneous neutron decay within components is a factor absent in the literature. The byproducts of neutron decay, largely composed of a proton, could lead to excessive hydrogen content, irradiation assisted stress corrosion cracking, epsilon martensite formation, hydrides, ion induced damage, voids, bubbles, and dislocation loops. Neutrons are the most abundant relevant fission product, and neutrons are continuously decaying at a rate proportional to their production. This paper hypothesizes that at high neutron fluence, a quantifiable contribution to material degradation can be associated with the proton byproducts of neutron decay. Literature-based degradation mechanisms are presented along with initial calculations of the neutron decay contribution. The paper will demonstrate a potential new factor for consideration in the material degradation of nuclear reactor components.

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Polymeric Interlayer Strengthening with Boron Neutron Capture Radiation Treatment for Laminated Glass

Cited by 2 publications

References 18 publications

Formation of lattice vacancies and their effects on lithium-ion transport in LiBO₂ crystals: comparative ab initio studies

Formation of lattice vacancies and their effects on lithium-ion transport in LiBO₂ crystals: comparative ab initio studies

Influence of neutron decay on nuclear reactor materials

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Polymeric Interlayer Strengthening with Boron Neutron Capture Radiation Treatment for Laminated Glass

Cited by 2 publications

References 18 publications

Formation of lattice vacancies and their effects on lithium-ion transport in LiBO2 crystals: comparative ab initio studies

Formation of lattice vacancies and their effects on lithium-ion transport in LiBO2 crystals: comparative ab initio studies

Influence of neutron decay on nuclear reactor materials

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Product

Resources

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Formation of lattice vacancies and their effects on lithium-ion transport in LiBO₂ crystals: comparative ab initio studies

Formation of lattice vacancies and their effects on lithium-ion transport in LiBO₂ crystals: comparative ab initio studies