References
- Nunes FC, Dille J, Delplancke J.-L, de Almeid LH: ‘Yttrium addition to heat-resistant cast stainless steel’, Scr. Mater., 2006, 54, 1553–1556.
- Brady MP, Yamamoto Y, Santella ML, Pint BA: ‘Effect of minor alloy additions and oxidation temperature on protective alumina scale formation in creep-resistant austenitic stainless steels’, Scr. Mater., 2007, 57, 1117–1120.
- Zhang XF, Terasaki H, Komizo Y: ‘In situ investigation of structure and stability of niobium carbonitrides in an austenitic heat-resistant steel’, Scr. Mater., 2012, 67, 201–204.
- Jandova D, Kasl J: ‘Influence of precipitation on dislocation substructure and creep properties of P91 steel weld joints’, Mater. High Temp., 2010, 27, 135–140.
- Yamamoto Y, Brady MP, Lu ZP, Maziasz PJ, Liu CT, Pint BA, More KL, Meyer HM, Payzant EA: ‘Creep-resistant, Al2O3-forming austenitic stainless steels’, Science, 2007, 316, 433–436.
- Maziasz PJ: ‘Developing an austenitic stainless steel for improved performance in advanced fossil power facilities’, JOM, 1989, 41, 14–20.
- Chen L, Ma XC, Wang LM, Ye XN: ‘Effect of rare earth element yttrium addition on microstructures and properties of a 21Cr–11Ni austenitic heat-resistant stainless steel’, Mater. Des., 2011, 32, 2206–2212.
- Yu MD, Sandstrom R: ‘Influence of cerium on the creep properties of the austenitic stainless steel 253MA. Scand’, J. High Temp. Technol., 1988, 6, 153–157.
- ‘Standard specification for castings, austenitic, for pressure-containing parts’, ASTM A351/A351M-12, 2012, ASTM, Philadelphia, PA, USA.
- ‘Steels – determination method of oxidation resistance’; GB/T 13303-1991, China Standard Press.
- ‘Metallic materials – wear test method’, GB/T 12444-2006, China Standard Press.
- Kim YJ, Lee DG, Jeong HK, Lee YT, Jang H: ‘High temperature mechanical properties of HK40-type heat-resistant cast austenitic stainless steels’, J. Mater. Eng. Perform., 2010, 19, 700–704.
- Ma SQ, Xing JD, Fu HG, Gao YM, Zhang J: ‘Microstructure and crystallography of borides and secondary precipitation in 18wt.% Cr–4wt.% Ni–1wt.% Mo–3·5 wt.% B–0·27 wt.% C steel’, Acta Mater., 2012, 60, 831–843.
- Calik A: ‘Interface microstructure of diffusion bonded Ni3Al intermetallic alloy and austenitic stainless steel’, Mater. Lett., 2009, 63, 2462–2465.
- Gonzalez-Carrasco J, Chao J, Capdevila C, Jimenez J, Amigo V, Salvador MD: ‘Assessment of factors influencing surface recrystallisation during high temperature exposure of fine-grained PM 2000 alloy’, Mater. Sci. Eng. A, 2007, A471, 120–124.
- Finnie L: ‘Erosion of surfaces by solid particles’, Wear, 1960, 3, 87–103.
- Lee JH, Yang WJ, Yoo WD, Cho KS: ‘Microstructural and mechanical property changes in HK40 reformer tubes after long term use’, Eng. Fail. Anal., 2009, 16, 1883–1888.
- Zhang Y, Sun YF, Guan SK, Deng X, Yan XY: ‘Effect of titanium and tungsten on the structure and properties of heat-abrasion resistant steel’, Mater. Sci. Eng. A, 2008, A478, 214–220.
- Lv YZ, Sun YF, Zhang Y, Zhao JY, Wu Y: ‘Effect of tungsten on microstructure and properties of high chromium cast iron’, Mater. Des., 2012, 39, 303–308.