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Materials at High Temperatures Volume 36, 2019 - Issue 1
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Research Article

Effect of TiC and NbC carbides on creep life of stainless steels

F. AbeStructural Materials Division, National Institute for Materials Science (NIMS), Tsukuba, JapanCorrespondence[email protected]
,
M. MurataStructural Materials Division, National Institute for Materials Science (NIMS), Tsukuba, Japan
&
H. MiyazakiStructural Materials Division, National Institute for Materials Science (NIMS), Tsukuba, Japan
Pages 35-47 | Received 24 Oct 2017, Accepted 09 Mar 2018, Published online: 23 Mar 2018

References

  • Marshall P . In: Austenitic stainless steels, microstructure, and mechanical properties. London: Elsevier; 1984. P. 1–74.
  • Sourmail T . Precipitation in creep resistant austenitic stainless steels. Mat Sci Technol. 2001;17:1–14.10.1179/026708301101508972
  • Masuyama F . Advanced power plant developments and material experiences in Japan. In: Lecomte-Beckers J , Carton M , Schubert F , Ennis PJ , editors. Proc. 8th Liege Conference on Materials for Advanced Power Engineering 2006. Liege, Belgium: Forschungszentrum Jülich; 2006. P. 175–187.
  • Chai G , Forsberg U . Sanicro 25: an advanced high-strength, heat-resistant austenitic stainless steel. In: Di Gianfrancesco A , editor. Materials for ultra-supercritical and advanced ultra-supercritical power plants. Cambridge: Woodhead Publishing Limited; 2016. p. 391–421.
  • Igarashi M . Creep-resistant steels. In: Abe F , Kern T-U , Viswanathan R , editors. Creep-resistant steels. Cambridge, England, Woodhead Publishing Limited; 2008. p. 539–572.10.1533/9781845694012.3.539
  • NIMS Creep Data Sheets . No.5B , Tokyo, Tsukuba, Japan: National Institute Fort Materials Science; 1987.
  • NIMS Creep Data Sheets . No.28B , Tokyo, Tsukuba, Japan: National Institute Fort Materials Science; 2001.
  • Harding HJ , Honeycombe RWK . Effect of stacking fault precipitation on the mechanical properties of austenitic steels. J Iron Steel Inst. 1966;204:259–267.
  • Teare PW , Williams NT . Structural features of isothermal ageing at elevated temperatures of four austenitic steels. J Iron Steel Inst. 1963;201:125–132.
  • Silcock JM . Precipitation of NbC in niobium stabilized austenitic steels observed by thin foil electron microscopy. J Iron Steel Inst. 1963;201:409–421.
  • Ramaswamy V , West DRF . NbC precipitation in a 20%Cr-25%Ni-1%Nb austenitic steel. J Iron Steel Inst. 1970;208:391–394.
  • Haddrill DM , Younger RN , Baker RG . Precipitation of niobium carbide on dislocations in austenite. Acta Metallurgica. 1961;9:982–984.10.1016/0001-6160(61)90132-8
  • Pickerring FB . The precipitation of biobium carbide in austenitic creep resisting steels. Proc. the relation between the structure and mechanical properties of metals; 1963; Teddington, Middlesex, United Kingdom: National Physical Laboratory. p. 398–407.
  • Van Aswegen JST , Honeycombe RWK , Warrington DH . Precipitation on stacking faults in Cr-Ni austenitic steels. Acta Metallurgica. 1964;12:1–13.10.1016/0001-6160(64)90048-3
  • Yukitoshi T , Yoshikawa K , Teranishi H . The effect of production conditions on grain refinement for stabilized type stainless steel for elevated temperature application. Tetsu-To-Hagane. 1984;70:1962–1969. Japanese.10.2355/tetsutohagane1955.70.15_1962
  • Minami Y , Kimura H . Effect of M23C6 and MC carbides on the creep rupture strength of 18%Cr-10%Ni-Ti-Nb steel. Trans Iron Steel Inst Jpn. 1987;27:299–301.10.2355/isijinternational1966.27.299
  • NIMS Creep Data Sheets . No.4B , Tokyo, Tsukuba, Japan: National Institute for Materials Science; 1986.
  • Abe F . Heat-to-heat variation in creep life and fundamental creep rupture strength of 18Cr-8Ni, 18Cr-12Ni-Mo, 18Cr-10Ni-Ti, and 18Cr-12Ni-Nb stainless steels. Metall Mater Trans A. 2016;47:4437–4454.10.1007/s11661-016-3587-3
  • Miyazaki H , Tanaka H , Murata M , et al . Effect of minor elements on the long-term creep rupture time of SUS 304 HTB stainless steel. J Jpn Inst Metals. 2002;66:1278–1286. Japanese.10.2320/jinstmet1952.66.12_1278
  • Abe F , Tanaka H , Murata M . Effect of Nb on long-term creep life of JIS SUS304HTB and JIS SUS347HTB steels – heat - to - heat variation and life assessment of stainless steels. Mater High Temp. 2016;33:626–635.10.1080/09603409.2016.1206740
  • Tanaka H , Murata M , Shinya N . Creep fracture modes at high temperature in SUS321H. Tetsu-To-Hagane. 1992;78:934–940. Japanese.10.2355/tetsutohagane1955.78.6_934
  • Tanaka H , Murata M , Abe F , et al . The effect of carbide distributions on long-term creep rupture strength of SUS321H and SUS347H stainless steels. Mater Sci Eng. 1997;234–236:1049–1052.10.1016/S0921-5093(97)00360-2
  • Tanaka H , Murata M , Abe F , et al . Effects of grain boundary precipitates on long-term creep rupture properties of SUS347H steel. Tetsu-To-Hagane. 1997;83:72–77. Japanese.10.2355/tetsutohagane1955.83.1_72
  • JIS G 0551 : Steels – micrographic determination of the apparent grain size. Japanese Industrial Standard; 2013.
  • ASTM E112 : Standard test methods for determining average grain size. Annual Book of ASTM Standards; 2005.
  • Tanaka H , Murata M , Abe F , et al . Microstructural evolution and change in hardness in type 304H stainless steel during long-term creep. Mater Sci Eng. 2001;319–321:788–791.10.1016/S0921-5093(01)01012-7
  • Koch VW , Schrader A , Krisch A , et al . Änderungen im gefüge austenitischer stähle bei zeitstandversuchen [Microstructure changes in austenitic steels during creep test]. Stahl u. Eisen. 1958;78:1251–1262.
  • Boothby RM . Abnormal grain growth in Nimonic PE16. Metal Sci. 1979;13:351–358.10.1179/msc.1979.13.6.351
  • Rios PR . Expression for solubility product of niobium carbonitride in austenite. Mater Sci Technol. 1988;4:324–327.10.1179/mst.1988.4.4.324
  • Minami Y . Power generation and chemical plant materials. In: Nishiyama memorial technical lectures. Tokyo: ISIJ; 1992. p. 153–181. Japanese.
  • Zou H , Kirkaldy JS . Thermodynamic calculation and experimental verification of the carbonitride-austenite equilibrium in Ti-Nb microalloyed steels. Metall Trans A. 1992;23:651–657.10.1007/BF02801182
  • Wey MY , Sakuma T , Nishizawa T . Growth of alloy carbide particles in austenite. Trans Jpn Inst Metals. 1981;22:733–742.10.2320/matertrans1960.22.733
  • Oikawa H , Iijima Y . Diffusion behavior of creep-resistant steels. In : Abe F , Kern T-U , Viswanathan R , editors. Creep-resistant steels. Cambridge, England, Woodhead Publishing Limited; 2008. p. 241–264.10.1533/9781845694012.2.241
  • Ramqvist L . Jernkont. Ann; 1969; 153, 159. cited in Kikuchi M, Nagakura S, Oketani S. Crystal structures of transition metal carbides. Tetsu-To-Hagane. 1971;57:127–171. Japanese.
  • Lewis MH , Hattersley B . Precipitation of M23C6 in austenitic steels. Acta Metallurgica. 1965;13:1159–1168.10.1016/0001-6160(65)90053-2

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