1. R. P. Gangloff and B. P. Somerday, Gaseous Hydrogen Embrittlement of Materials in Energy Technologies, Vol. 1: The Problem, Its Characterisation and Effects on Particular Alloy Classes, Woodhead Publishing Limited, Cambridge, UK (2012).
2. M. Dadfarnia, A. Nagao, S. Wang, et al., “Recent advances on hydrogen embrittlement of structural materials,” Int J Fracture,196, 223–243 (2015).
3. A. V. Fishgoit and B. A. Kolachev, “Strength tests in hydrogen in the aerospace industry,” Mater Sci, 33, No. 4, 568–573 (1997).
4. R. P. Gangloff, “Science-based prognosis to manage structural alloy performance in hydrogen,” in: B. Somerday, P. Sofronis, and J. Russell (Eds.), Effects of Hydrogen on Materials (Proc. of the 2008 International Hydrogen Conference, Wyoming), ASM International, Materials Park, USA (2009), pp. 1–21.
5. A. Lee, “Hydrogen embrittlement of nickel, cobalt and iron-based superalloys,” in: R.P. Gangloff and B.P. Somerday (Eds.), Gaseous Hydrogen Embrittlement of Materials in Energy Technologies: The Problem, Its Characterization, and Effects on Particular Alloy Classes, Woodhead Publishing Limited, Cambridge, UK (2012), pp.624–667.