1. Y. Sawaragi, N. Otsuka, H. Senba, and S. Yamamoto, Properties of a New 18-8 Austenitic Steel Tube (SUPER 304H) for Fossil Fired Boilers After Service Exposure with High Elevated Temperature Strength, Sumitomo Search, 1994, 56, p 34–43
2. A. Iseda, H. Okada, H. Semba, and M. Igarashi, Long Term Creep Properties and Microstructure of Super304H, TP347HFG and HR3C for A-USC Boilers, Energy Mater., 2007, 2, p 199–206
3. J.H. Kim, D.I. Kim, S. Suwas, E. Fleury, and K.W. Yi, Grain-Size Effects on the High-Temperature Oxidation of Modified 304 Austenitic Stainless Steel, Oxid. Met., 2013, 79, p 239–247
4. S. Swaminathan, N.G. Krishna, and D.I. Kim, Characteristics of Oxide Scale Formed on Cu-Bearing Austenitic Stainless Steel during Early Stages of High Temperature Oxidation, Appl. Surf. Sci., 2015, 353, p 29–39
5. X.M. Li, Y. Zou, Z.W. Zhang, and Z.D. Zou, Microstructure Evolution of a Novel Super304H Steel Aged at High Temperatures, Metall. Trans. A, 2010, 51, p 305–309