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Characterization of nanoporosity in polymer-derived ceramic fibres by X-ray scattering techniques

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Abstract

Ceramic fibres with Si-C-O and Si-N-C-O compositions, prepared by pyrolysis of polymer precursors, generally have densities lower than those calculated from a volume additivity rule. However, techniques often used to detect porosity such as electron microscopy methods, surface area and porosimetry measurements show that little surface-connected porosity is present. X-ray scattering measurements, both wide-angle (WAXS) and small-angle (SAXS), show considerable scattering in the range 1° < 2θ < 10° (Cu). Treatment of the scattering data by the classical Guinier (low angle limit) and Porod (high angle limit) methods indicate that closed, globular, nanometre-scale porosity (1 to 3 nm diameter) is present in all ceramic fibres examined. X-ray scattering power correlates quantitatively with the volume fraction porosity, as expected if porosity is the dominant facto affecting X-ray scattering. Nano-particles of excess carbon and ofβ-SiC nanocrystallites, though present, are minor contributors to the scattering of X-rays in these ceramic fibres. Fibres are three-dimensional, not of fractal dimension, and are not oriented. As density increases with increasing pyrolysis temperature, average pore size increases and pore volume fraction decreases. This results from a thermodynamically favourable reduction of surface free energy and apparently occurs by a viscous flow process.

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Authors and Affiliations

  1. Dow Corning Corporation, 48686, Midland, Michigan, USA

    Jonathan Lipowitz, James A. Rabe & Ludo K. Frevel

  2. Michigan Molecular Institute, 48640, Midland, Michigan, USA

    Robert L. Miller

Authors
  1. Jonathan Lipowitz
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  2. James A. Rabe
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  3. Ludo K. Frevel
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  4. Robert L. Miller
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Lipowitz, J., Rabe, J.A., Frevel, L.K. et al. Characterization of nanoporosity in polymer-derived ceramic fibres by X-ray scattering techniques. J Mater Sci 25, 2118–2124 (1990). https://doi.org/10.1007/BF01045776

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  • DOI: https://doi.org/10.1007/BF01045776

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