References
- I.G. Wright and R.B. Dooley, A review of the oxidation behavior of structural alloys in steam. Int. Mater. Rev. 55 (2010), pp. 129–167.
- M.-H. Jang, J. Moon, J.-Y. Kang, H.-Y. Ha, B.G. Choi, T.-H. Lee, and C. Lee, Effect of tungsten addition on high-temperature properties and microstructure of alumina-forming austenitic heat-resistant steels. Mater. Sci. Eng. A 647 (2015), pp. 163–169.
- A. Aguero, M. Gutierrez, R. Muelas, and K. Spiradek-Hahn, Overview of steam oxidation behaviour of Al protective oxide precursor coatings on P92. Surf. Eng. 34 (2018), pp. 30–39.
- Y. Yamamoto, M.P. Brady, M.L. Santella, H. Bei, P.J. Maziasz, and B.A. Pint, Overview of strategies for high-temperature creep and oxidation resistance of alumina-forming austenitic stainless steels. Metall. Mater. Trans. A 42 (2011), pp. 922–931.
- Y. Yamamoto, M.P. Brady, Z.P. Lu, C.T. Liu, M. Takeyama, P.J. Maziasz, and B.A. Pint, Alumina-forming austenitic stainless steels strengthened by laves phase and MC carbide precipitates. Metall. Mater. Trans. A 38 (2007), pp. 2737–2746.
- Y. Yamamoto, M.P. Brady, Z.P. Lu, P.J. Maziasz, C.T. Liu, B.A. Pint, K.L. More, H.M. Meyer, and E.A. Payzant, Creep-resistant, Al2O3-forming austenitic stainless steels. Science 316 (2007), pp. 433–436.
- H. Asteman and M. Spiegel, A comparison of the oxidation behaviors of Al2O3 formers and Cr2O3 formers at 700°C – oxide solid solutions acting as a template for nucleation. Corros. Sci. 50 (2008), pp. 1734–1743.
- G. Muralidharan, Y. Yamamoto, M.P. Brady, L.R. Walker, H.M. Meyer III, and D.N. Leonard, Development of cast alumina-forming austenitic stainless steels. JOM 68 (2016), pp. 2803–2810.
- N. Birks, G.H. Meier, and F.S. Pettit, Introduction to the High Temperature Oxidation of Metals, Cambridge University Press, Cambridge, 2006.
- M.P. Brady, Y. Yamamoto, M.L. Santella, and L.R. Walker, Composition, microstructure, and water vapor effects on internal/external oxidation of alumina-forming austenitic stainless steels. Oxid. Met. 72 (2009), pp. 311–333.
- S.R.J. Saunders, M. Monteiro, and F. Rizzo, The oxidation behavior of metals and alloys at high temperatures in atmospheres containing water vapor: a review. Prog. Mater. Sci. 53 (2008), pp. 775–837.
- Z. Yu, M. Chen, C. Shen, S. Zhu, and F. Wang, Oxidation of an austenitic stainless steel with or without alloyed aluminum in O2+ 10% H2O environment at 800°C. Corros. Sci. 121 (2017), pp. 105–115.
- X. Xu, X. Zhang, G. Chen, and Z. Lu, Improvement of high-temperature oxidation resistance and strength in alumina-forming austenitic stainless steels. Mater. Lett. 65 (2011), pp. 3285–3288.
- M.P. Brady, Y. Yamamoto, M.L. Santella, and B.A. Pinit, Effects of minor alloy additions and oxidation temperature on protective alumina scale formation in creep-resistant austenitic stainless steels. Script. Mater. 57 (2007), pp. 1117–1120.
- J.-Y. Kang, H.-Y. Ha, M.-H. Jang, J. Moon, D.-W. Suh, and T.-H. Lee, Underlying structure of bulky oxide nodule on alumina-forming austenitic stainless steel. Scripta Mater. 102 (2015), pp. 63–66.
- J. Moon, T.-H. Lee, Y.-U. Heo, Y.-S. Han, J.-Y. Kang, H.-Y. Ha, and D.-W. Suh, Precipitation sequence and its effect on age hardening of alumina-forming austenitic stainless steel. Mater. Sci. Eng. A 645 (2015), pp. 72–81.
- J. Moon, M.-H. Jang, J.-Y. Kang, and T.-H. Lee, The negative effect of Zr addition on the high temperature strength in alumina-forming austenitic stainless steels. Mater. Charact. 87 (2014), pp. 12–18.
- M.-H. Jang, J.-Y. Kang, J.H. Jang, T.-H. Lee, and C. Lee, Improved creep strength of alumina-forming austenitic heat-resistant steels through W addition. Mater. Sci. Eng. A 696 (2017), pp. 70–79.
- F. Abe, M. Taneike, and K. Sawada, Alloy design of creep resistant 9Cr steel using a dispersion of nano-sized carbonitrides. Int. J. Press. Vessel Pip. 84 (2007), pp. 3–12.
- J. Hald, Microstructure and long-term creep properties of 9–12% Cr steels. Int. J. Press. Vessel Pip. 85 (2008), pp. 30–37.
- F. Masuyama, History of power plants and progress in heat resistant steels. ISIJ Int. 41 (2001), pp. 612–625.
- Q. Lu, W. Xu, and S. Van Der Zwaag, The computational design of W and co-containing creep-resistant steels with barely coarsening laves phase and M23C6 as the strengthening precipitates. Metall. Mater. Trans. A 45 (2014), pp. 6067–6074.
- J.-Y. Kang, H.-Y. Ha, S.-D. Kim, J.Y. Park, M.-H. Jang, and T.-H. Lee, Effect of tungsten on the oxidation of alumina-forming austenitic stainless steel. Appl. Microsc. 49 (2019), pp. 13–22.
- M.E. El-Dahshan, D.P. Whittle, and J. Stringer, The oxidation of nickel – tungsten alloys. Corros. Sci. 16 (1976), pp. 83–90.
- S. Espevik, R.A. Rapp, P.L. Daniel, and J.P. Hirth, Oxidation of Ni-Cr-W ternary alloys. Oxid. Met. 14 (1980), pp. 85–108.
- D.W. Yun, S.M. Seo, H.W. Jeong, I.S. Kim, and Y.S. Yoo, Modelling high temperature oxidation behaviour of Ni–Cr–W–Mo alloys with Bayesian neural network. J. Alloys Compd. 587 (2014), pp. 105–112.
- D.W. Yun, H.S. Seo, J.H. Jun, J.M. Lee, D.H. Kim, and K.Y. Kim, Oxide modification by chi phase formed on oxide/metal interface of Fe-22Cr-0.5Mn ferritic stainless steel for SOFC interconnect. Int. J. Hydrog. Energy 36 (2011), pp. 5595–5603.
- A. Safikhani and M. Aminfard, Effect of W and Ti addition on oxidation behavior and area-specific resistance of Fee22Cre0.5Mn ferritic stainless steel for SOFCs interconnect. Int. J. Hydrog. Energy 39 (2014), pp. 2286–2296.
- H.-Y. Ha and H.-S. Kwon, Effects of pH levels on the surface charge and pitting corrosion resistance of Fe. J. Electrochem. Soc. 159 (2012), pp. C416–C421.
- P. Tomaszewicz and G.R. Wallwork, The oxidation of high-purity iron-chromium-aluminum alloys at 800°C. Oxid. Met. 20 (1983), pp. 75–109.
- T.M. Besmann, N.S. Kulkarni, and K.E. Spear, Thermochemical analysis and modeling of the Al2O3–Cr2O3, Cr2O3–SiO2, and Al2O3–Cr2O3–SiO2 systems relevant to refractories. J. Am. Ceram. Soc. 89 (2006), pp. 638–644.
- C. Hubschmid, D. Landolt, and H.J. Mathieu, XPS and AES analysis of passive films on Fe-25Cr-X (X = Mo, V, Si and Nb) model alloys. Anal. Chem. 353 (1995), pp. 234–239.
- M.Z. Yang, J.L. Luo, Q. Yang, L.J. Qiao, Z.Q. Qin, and P.R. Norton, Effects of hydrogen on semiconductivity of passive films and corrosion behavior of 310 stainless steel. J. Electrochem. Soc. 146 (1999), pp. 2107–2112.
- H.-Y. Ha, M.-H. Jang, and T.-H. Lee, Influences of Mn in solid solution on the pitting corrosion behaviour of Fe-23 wt%Cr-based alloys. Electrochim. Acta 191 (2016), pp. 864–875.
- H.-Y. Ha, T.-H. Lee, and S.-J. Kim, Role of nitrogen in the active–passive transition behavior of binary Fe-Cr alloy system. Electrochim. Acta 80 (2012), pp. 432–439.
- N.E. Hakiki, M.F. Montemor, M.G.S. Ferreira, and M. da Cunha Belo, Semiconducting properties of thermally grown oxide films on AISI 304 stainless steel. Corros. Sci. 42 (2000), pp. 687–702.
- N.E. Hakiki, Comparative study of structural and semiconducting properties of passive films and thermally grown oxides on AISI 304 stainless steel. Corros. Sci. 53 (2011), pp. 2688–2699.