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论文类型：期刊论文

发表时间：2010-05-01

发表刊物：22nd International Conference on Surface Modification Technologies

收录刊物：SCIE、EI、CPCI-S

卷号：26

期号：4

页面范围：305-311

ISSN号：0267-0844

关键字：Nitrogen modified austenitic stainless steel; High nitrogen face centred cubic phase; X-ray diffraction; Stacking faults

摘要：High nitrogen face centred cubic phase formed on the nitrogen modified Fe-Cr-Ni austenitic stainless steel, which is named by gamma(N) phase, has a combined wear and corrosion resistance. X-ray diffraction (XRD) patterns of the gamma(N) phase on the stainless steel depict a set of broad and asymmetry diffraction peaks with a peak shift to low Bragg angles and a decrease in intensity, even disappearing of some peaks of high index planes, from each austenite peak for the gamma matrix. The peak shift of the XRD patterns was first explained by Warren's XRD theory by Blawert et al. (Surf. Coat. Technol., 2001, 136, 181). In this paper, a systematic study of XRD on the peak shift, peak asymmetry, peak broadening and peak intensity of the gamma(N) phase has been carried out, based on a fault induced scattering geometry in diffraction to imperfect crystals by Warren's theory and Wagner's method. Both the higher deformation faults density alpha in a range of 0.02-0.25 and the lower twin faults density beta of 0.01-0.1 were successfully used to describe the line profiles in the XRD patterns of the gamma(N) phase formed on plasma source ion nitrided 1Cr18Ni9Ti (18-8 type) austenitic stainless steel. A novel stacking faults factor S(alpha beta) dependent on alpha and beta described, in good agreement, the peak intensity of the gamma(N) phase. The calculated XRD patterns of the gamma(N) phase using the imperfect crystals model of a face centred cubic phase with a higher deformation faults density and a lower twin faults density were associated with the experimentally structural characteristics.