Journal of Electron Microscopy

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Journal of Electron Microscopy 48(1): 9-15 (1999)
© 1999 Oxford University Press

Visualization of carbon in steels using energy filtering TEM

Katsumi Yamada¹, Kaoru Sato¹, Hiroki Kurata² and Takashi Kobayashi³

¹Applied Technology Research Center NKK Corporation, Kawasaki 210–0855
²Japan Atomic Energy Research Institute Tokai-mura, Ibaraki 319–11
³Institute for Chemical Research, Kyoto University Uji, Kyoto 611, Japan. E-mail: katsumiy{at}lab.keihin.nkk.co.jp

Energy filtering TEM [Reimer L (1984) Transmission Electron Microscopy, Physit of Image Formation and Microanalysis, pp. 391–393, (Springer, Berlin)] i potentially capable of visualizing the distribution of a particular element a the nanometre scale. However, visibility of the energy-loss image depend on the combination of the atomic species of interest and the matrix. In thi paper we discuss experimental conditions required for obtaining carbo: ‘mapping’ in steels. Three types of common carbides cementite, (Fe₃C), (Ti, Nb)C and M₂₃C₆, in both thin foil and extraction replica specimens wer examined in a high voltage high resolution electron microscope equippe with a post-column energy filtering system. The peak to background (P/B ratio at the C–K edge is the determining factor for obtaining a carbon image Carbon mapping was relatively easy for cementite in pearlite when th electron beam specimen geometry was such that the carbide was present a through the foil thickness. In contrast, in the case of M₂₃C₆ in a stainles steel, carbon imaging was possible when the carbide was extracted but nc when it was embedded in the matrix. Based on the statistic theory of Berge and Kohl [(1993) Optik 92: 175–193], we estimated the minimum carbid thickness t_min and the maximum total foil thickness as a function of the Mi type carbide thickness for obtaining the carbon image. The total foil thicknes t_o should be thinner than about 44 nm when the MC carbide, whose thicknes is 5 nm, is to be imaged with the C–K edge.

Keywords     energy filtering, post-column, carbon, mapping, carbides, cementite

Received      5 March 1998, accepted 18 September 1998

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