References
- Sawaragi Y., Teranishi H., Makiura H. and Miura M.: ‘The development of HR3C steel with high elevated temperature strength and high corrosion resistance for boiler tubes’, Sumitomo Met., 1985, 37, 166–179.
- Masuyama F.: ‘History of power plants and progress in heat resistant steels’, ISIJ Int., 2001, 41, 612–625.
- Yang F., Zhang Y. L., Ren Y. N. and Li W. M.: ‘New heat-resistant steel welding’; 2006, Beijing, China Electric Power Press.
- Fujikawa H. and Nishiyama Y.: ‘Corrosion behavior of various steels in the simulated fluidized bed boiler environment’, Mater. Corros., 1998, 49, 888–896.
- Park I., Masuyama F. and Endo T.: ‘Effect of soluble nitrogen on the creep strength of an austenitic 25Cr20Ni steel’, Key Eng. Mater., 1999, 171, 445–452.
- Iseda A., Okada H., Semba H. and Igarashi M.: ‘Long term creep properties and microstructure of SUPER304H, TP347HFG and HR3C for A-USC boilers’, Energy Mater., 2007, 2, 199–206.
- Wang J. Z., Cheng S. C., Liu A. D., Bao H. S. and Wang B., ‘Study of influence factors leading to low tensile plasticity at high temperature in HR3C steel’, in ‘Symposium on Advanced Power Plant Heat Resistant Steels and Alloys’; 2009.
- Sourmail T.: ‘Precipitation in creep resistant austenitic stainless steels’, Mater. Sci. Technol., 2001, 17, 1–14.
- Nobuhiko S. and Nobuyoshi K.: ‘2007 ASME pressure vessels and piping conference’, in ‘8th International Conference on Creep and Fatigue at Elevated Temperatures’; 2008, San Antonio, American Society of Mechanical Engineers.
- Hack H. and Stanko G.: ‘Effects of fuel composition and temperature on fireside corrosion resistance of advanced materials in ultra-supercritical coal-fired power Plants’, in ‘5th international Conference on Advanced in Materiald Technology for Fossil Poer Plants’; 2007, Marco Island.
- Sourmail T. and Bhadeshia H.: ‘Microstructural evolution in two variants of NF709 at 1023 and 1073 K’, Metall. Mater. Trans. A, 2005, 36, 23–34.
- Yang Y. H., Zhu L. H., Jiang Y., Wang Q. J. and Zhu C. C.: ‘Effect of creeping at 650°C on precipitates of HR3C heat-resistant steel’, Trans. Mater. Heat Treat., 2013, (106–110), 34.
- Jack D. H. and Jack K. H.: ‘Structure of Z-Phase NbCrN’, J. Iron Steel Inst., 1972, 210, 790–792.
- Fang Y. Y., Zhao J. and Li X. N.: ‘Precipitates in HR 3 C steel aged at high temperature’, Acta Metall. Sinica (China), 2010, 46, 844–849.
- Igarashi M., Yagi K., Merkling G., Kern T. U., Irie H. and Warlimont W. eds. ‘Landolt–Bornstein numerical data and functional relationships in science and technology. Group VIII: advanced materials and technologies’, 267–269; 2004, Berlin, Springer-Verlag.