Abstract
COMMENT has previously been made about the remarkable anisotropy of properties of graphite such as the thermo-electric power1, the electrical resistivity2 and various other physical properties3. The development of techniques for preparing fairly large pieces of well-oriented graphite has opened the way for investigating other consequences of the anisotropy, some of which are particularly relevant for work at temperatures above 3,000° C. Two kinds of well-oriented graphite can be utilized as susceptor crucibles in induction furnaces designed to work under extremely clean conditions4.
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References
Blackman, L., Dundas, P., and Ubbelohde, A. R., Proc. Roy. Soc., A, 255, 293 (1960).
Ubbelohde, A. R., Proc. Conf. Carbon (in the press).
Ubbelohde, A. R., and Lewis, F. A., Graphite and its Crystal Gompounds (Oxford Univ. Press, 1960).
Blackman, L., Dundas, P., Moore, A. W., and Ubbelohde, A. R., Brit. J. App. Phys., 12, 377 (1961).
Kingery, W. D., Proc. Fourth Carbon Conf., Buffalo, 457 (Pergamon Press, 1960).
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UBBELOHDE, A., YOUNG, D. & MOORE, A. Behaviour of Well-oriented Graphite at Very High Temperatures. Nature 193, 571–572 (1962). https://doi.org/10.1038/193571a0
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DOI: https://doi.org/10.1038/193571a0
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