The impact of flow-accelerated corrosion on the crack developing in welded joints of NPP equipment and pipelines
Author:
Affiliation:
1. All-Russian research Institute for the operation of nuclear power plants
Publisher
TEST-ZL Publishing
Subject
Condensed Matter Physics
Reference15 articles.
1. Dejoux L., Trevin S., Tigeras A., Alos-Ramos O., Lemettre P.-Y. Flamanville 3 EPR: FAC-Free by Design / Proc. FAC-2013. Avignon, France, 21 – 24 May 2013.
2. NSAC-202L-R2. Recommendations for an effective flow-acceleration corrosion program. EPRI, Palo Alto, CA, April 1999.
3. Tomarov G. V., Shipkov A. A., Komissarova T. N. Flow-accelerated corrosion wear of power-generating equipment: investigations, prediction, and prevention: Part 2. Prediction and prevention of general and local flow-accelerated corrosion / Teploénergetika. 2018. N 8. P. 17 – 28 [in Russian].
4. Getman A. F. Resource of operation of vessels and pipelines of NPP. — Moscow: Énergoatomizdat, 2000. — 427 p. [in Russian].
5. Danilov A. V., Kamyshev A. V., et al. Apply the acoustoelastic method to determine residual stresses in welded joints / V Mire Nerazr. Kontrolya. 2020. Vol. 23. N 3. P. 10 – 17 [in Russian].
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