210. Thermal expansion coefficient of pyrolytic graphite and kish graphite

Graphite crystal expansions were derived as a function of' temperature usmg the theoretical relationships of Riley; the resultant equations provide reasonable tits to the measured lattice expansion data over the temperature range 300-3000%

Magnetoreflection experiments have been performed on samples of pyrolytic, single crystal and kish graphite. Comparing the data for these samples we conclude that with a single set of band parameters the Slonczewski-Weiss-McClure band model adequately describes the magnetoreflection data for all thr

The c-axis thermal expansion coefficient of SbCL-GIG i$ obtained from analysis of COO/) X-ray diffractograms for stages l-3. A decrease in thermal expansion coefficient with increasing stage is observed and it is related to a higher charge transfer for the higher stages than for the lower ones. The

The thermal expansion behaviour of pyrolytic graphite-bromine residue compounds, under different applied loads, has been examined. The observed behaviour is qualitatively explained, using a model which considers the bromine to exist as gaseous bubbles within the lamellar structure of the graphite cr