An Atom Probe Tomography Study of the Through Wall Attenuation Effect on Cu-rich Precipitate Formation in a Reactor Pressure Vessel Steel
Author:
Funder
U.S. Department of Energy
Publisher
Elsevier BV
Subject
Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics
Reference32 articles.
1. Neutron irradiation hardening of chemically-tailored RPV steels with respect to Cu/P and Ni/Mn elements;Chaouadi;Journal of Nuclear Materials,2019
2. Using complimentary microscopy methods to examine Ni-Mn-Si-precipitates in highly-irradiated reactor pressure vessel steels;Edmondson;Acta Materialia,2017
3. On the history and status of reactor pressure vessel steel ductile to brittle transition temperature shift prediction models;Odette;Journal of Nuclear Materials,2019
4. Uncertainties and assumptions associated with APT and SANS characterisation of irradiation damage in RPV steels;Hyde;Journal of Nuclear Materials,2014
5. Thermodynamic and kinetic modeling of Mn-Ni-Si precipitates in low-Cu reactor pressure vessel steels;Ke;Acta Materialia,2017
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1. The Effect of Operational Factors on Phase Formation Patterns in the Light-Water Reactor Pressure Vessel Steels;Metals;2023-09-12
2. Microchemical evolution of irradiated additive-manufactured HT9;Journal of Nuclear Materials;2022-02
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