Modeling of SCC initiation and propagation mechanisms in BWR environments
- 31 December 2011
- journal article
- Published by Elsevier BV in Nuclear Engineering and Design
- Vol. 241 (12), 4893-4902
- https://doi.org/10.1016/j.nucengdes.2011.08.020
Abstract
No abstract availableKeywords
This publication has 22 references indexed in Scilit:
- Modeling the Effects of Local Anodic Acidification on Stress Corrosion Cracking of NickelCorrosion, 2011
- Modeling the effects of nuclear environments on crevice corrosion of pure nickel by coupling of phase and polarization behaviorNuclear Engineering and Design, 2009
- Modeling the Effect of Chloride Content on Hydrogen Sulfide Corrosion of Pure Iron by Coupling of Phase and Polarization BehaviorCorrosion, 2008
- Modeling of Crevice Corrosion of Pure Nickel by Coupling of Phase and Polarization Behavior at Various pH, Chloride, and Oxygen LevelsCorrosion, 2005
- High‐resolution analytical electron microscopy characterization of corrosion and cracking at buried interfacesSurface and Interface Analysis, 2001
- Numerical Model for Hydrogen-Assisted CrackingCorrosion, 2000
- Development of fast algorithms for estimating stress corrosion crack growth rateCorrosion Science, 1999
- Response to “ On the modeling of stress corrosion cracking of iron and nickel base alloys in high temperature aqueous environments”Corrosion Science, 1996
- A stress corrosion cracking mechanism based on surface mobilityCorrosion Science, 1987
- Yielding of steel sheets containing slitsJournal of the Mechanics and Physics of Solids, 1960