1. S. Abolhassani, G. Bart, J. Bertsch, M. Grosse, L. Hallstadius, A. Hermann, G. Kuri, G. Ledergerber, C. Lemaignan, M. Martin, S. Portier, C. Proff, R. Restani, S. Valance, S. Valizadeh, H. Wiese, Corrosion and Hydrogen Uptake in Zirconium Claddings Irradiated in Light Water Reactors, in: B. Comstock, P. Barberis (Eds.), Zircon. Nucl. Ind. 17th Vol., ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, 2015: pp. 540–573. http://www.astm.org/doiLink.cgi?STP154320130007 (accessed July 6, 2016).

2. Establishing Analytical Limits for Zirconium-alloy;Bales;Cladding Material,2014

3. .M. Clifford, Acceptable Fuel Cladding Hydrogen Uptake Models, (2015). https://www.NRC.gov/docs/ML1513/ML15133A306.pdf.

4. P. Clifford, Pressurized-Water Reactor Control Rod Ejection and Boiling-Water Reactor Control Rod Drop Accidents, NRC Regulatory Guide RG 1.236, June 2020. https://www.nrc.gov/docs/ML2005/ML20055F490.pdf.

5. C. Cozzo, A. Epiney, S. Canepa, H. Ferroukhi, O. Zerkak, G. Khvostov, V. Brankov, A. Gorzel, Full Core LOCA Analysis for BWR/6 - Methodology and First Results, in: Proc. Top Fuel 2016, Boise, Idaho, U.S.A., 2016: pp. 1135–1144.