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2002 Volume 11 Issue 6
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Dai Qi-Xun(戴起勋), Wang An-Dong(王安东), Cheng Xiao-Nong(程晓农), Luo Xin-Min(罗新民). 2002: Stacking fault energy of cryogenic austenitic steels, Chinese Physics B, 11(6): 596-600.
Citation: Dai Qi-Xun(戴起勋), Wang An-Dong(王安东), Cheng Xiao-Nong(程晓农), Luo Xin-Min(罗新民). 2002: Stacking fault energy of cryogenic austenitic steels, Chinese Physics B, 11(6): 596-600.
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Stacking fault energy of cryogenic austenitic steels

  • School of Materials Science and Engineering, Jiangsu University, Zhengjiang 212013, China

  • Available Online: 30/06/2002
  • Fund Project: the Natural Science Foundation of Education Division, Jiangsu Province, China (Grant 00KJD430006)
  • Stacking fault energy and stacking fault nucleation energy are defined in terms of the physical nature of stacking faults and stacking fault energy, and the measuring basis for stacking fault energy. Large quantities of experimentalresults are processed with the aid of a computer and an expression for calculating stacking fault energy has been obtainedasγSF300 (mJ @ m-2) =γSF0 + 1.59Ni - 1.34Mn + 0.06Mn2-1.75Cr + 0.01Cr2 + 15.21Mo - 5.59Si - 60.69(C + 1.2N)1/2 + 26.27(C + 1.2N)(Cr + Mn + Mo)1/2 + 0.61[Ni @ (Cr + Mn)]1/2.
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Stacking fault energy of cryogenic austenitic steels

  • Available Online: 30/06/2002

Abstract: Stacking fault energy and stacking fault nucleation energy are defined in terms of the physical nature of stacking faults and stacking fault energy, and the measuring basis for stacking fault energy. Large quantities of experimentalresults are processed with the aid of a computer and an expression for calculating stacking fault energy has been obtainedasγSF300 (mJ @ m-2) =γSF0 + 1.59Ni - 1.34Mn + 0.06Mn2-1.75Cr + 0.01Cr2 + 15.21Mo - 5.59Si - 60.69(C + 1.2N)1/2 + 26.27(C + 1.2N)(Cr + Mn + Mo)1/2 + 0.61[Ni @ (Cr + Mn)]1/2.

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