Changes in ultrasonic velocity in graphite after high temperature creep

are considerably under-estimated. This difficulty must be understood before defect structure calculations can be carried out adequately for graphite. The Morse potential yields a much larger anharmonic coefficient than is deduced from thermal expansion measurements.

Measurements have been made on the concentrations of vacancies and interstitial clusters in singlecrystal graphite irradiated with neutrons in a reactor and with carbon ions in an accelerator. The irradiations were carried out over a range of temperatures from 30" to 1100°C and a range of total init

of the PG's have been characterized by microstructure, crystallite size and degree of graphitization, mean tilt angle, and orientation dependence of crystallite size and perfection. Metallic diffusion is shown to occur in the less ordered regions around the surfaces and edges of crystallites and the