The effect of microporosity on the elastic modulus and yield curve of polycrystalline graphite

The effects of room temperature irradiation on the dynamic elastic modulus, E', and the internal friction, Q-l, of graphite have been investigated over a range of reactor radiation doses (-lOI to 10'" nvt-> 50 keV). Well-ordered graphite formed by stress-annealing pyrolytic carbon at high temperatur

El Segundo, California). Graphite samples which have been heated resistively or by a laser to produce chaoite have been studied by an Ion Microprobe Mass Analyzer (IMMA). The yield of secondary negative ions from the starting material is typically C,-, C2-, and with lesser amounts of C3-and C\*-but

Experimental data are presented on the changes of thermal conductivity of a number of polycrystalline graphites due to doping with boron and bromine, which respectively represent a substitutional and interstitial acceptor type defect. The results are compared with changes in thermal conductivity due

initiation and propagation mechanisms under tensile 45045 Orleans, France). No long or short abstract loading. These results were used in developing an submitted. analytical model for tensile failure based on microstructural parameters and micromechanical principles. 61. Structural evolution of a gl

## Abstract The dynamic elastic modulus of cellophanes has been measured by use of the resonant frequency of a 2 × 60‐mm. strip of film in longitudinal vibration. The niodulus was computed from the resonant frequency length of specinieii, and the cross‐sectional area determined from its resonant fr