Author:
Tolstolutska G.D.,Azarenkov M.O.,Bilous V.A.,Kuprin O.S.,Ishchenko M.G.
Abstract
This review discusses the state of the art in hydrogen permeation for a variety of coatings. Hydrogen ingress into structural materials can be detrimental due to corrosion and embrittlement. To enable safe operation in applications requiring protection from hydrogen isotopes, recent advances in material design and performance characterization of barrier coatings to prevent hydrogen isotope absorption ingress and permeation are summarized. Alternative coating concepts can provide greater resistance to hydrogen isotope permeation along with other improved properties such as mechanical strength and thermal resistance. The information presented here focuses on recent findings of promising hydrogen barriers including oxides, nitrides, carbon, carbide, MAX phases, and metals and their mechanical strength, hydrogen uptake, and radiation resistance.
Publisher
Problems of Atomic Science and Technology
Reference93 articles.
1. S.J. Kim, K.Y. Kim. An Overview on Hydrogen Uptake, Diffusion and Transport Behavior of Ferritic Steel, and Its Susceptibility to Hydrogen Degradation // Corros. Sci. Technol. 2017, v. 16, p. 209-225.
2. S.A. Karpov, G.D. Tolstolutskaya, V.N. Voyevodin. The most probable mechanisms of material characteristics degradation due to accumulation of hydrogen and predicting the possible scenarios of maintain its resource // PASТ. 2018, N 5(117), p. 3-15.
3. M. Koyama; E. Akiyama, Y.-K. Lee, D. Raabe, K. Tsuzaki. Overview of Hydrogen Embrittlement in High-Mn Steels // Int. J. Hydrog. Energy. 2017, v. 42, p. 12706-12723.
4. J. Song, W.A. Curtin. Atomic Mechanism and Prediction of Hydrogen Embrittlement in Iron // Nat. Mater. 2013, v. 12 (2), p. 145-151.
5. J. Yamabe, S. Matsuoka, Y. Murakami. Surface coating with a high resistance to hydrogen entry under high-pressure hydrogen-gas environment // Int. J. Hydrog. Energy. 2013, v. 38. p. 10141-10154.