Diamagnetism of pyrolytic carbons

A careful analysis of the (001)-reflection profiles of different pyrolytic carbons and of the modulation of the (ll)-and (30)-rods based on the theory of paracrystals proves that the model of Ruland cannot explain all experimental results, because if contains no bimodal statistics. Franklin's degree

Graphite crystals with thickness ranging from about 100 to 1500 ,A and were prepared b) cleavage. From measurement of the magnetoresistance and the Hall coefficient the electronic properties were determined by the McClui-e's method. The total carrier density does not change much with thickness. with

## A~~~-Various types of pyrolytic carbons obtained by acetylene pyrolysis at 1273 K were heat treated for 0.5 hr at 1623, 1973,2323,2673 and 3273 K. These carbons showed distinctly different ~aphit~biiity, decreasing in the order: compact, feathery, brittle, spongy and soot-like carbon. On the gr

Abatraot-The relation between preferred orientation and thermal expansion coefficient was investigated for a wide variety of pyrolytic carbons, including materials used for free-standing bodies as well as those used for coating nuclear fuel particles. Over most of the range of preferred orientations