Coefficient of thermal expansion and dynamic mechanical properties of as-deposited and stress-graphitized pyrolytic carbon

The direct measurements of the principal thermal expansion coefficients were carried out for the specimens of pyrolytic graphite at temperatures between 50 and 55O"C, using an apparatus with high sensitivity. Resolving power of the apparatus was f 100 A. The c-axis thermal expansion coefficient was

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

## Abstract Nanocomposites based on atactic polypropylene (aPP) and multiwall carbon nanotubes were prepared by melt blending at 80°C with a Barabender mixer. The morphology, thermal stability, and dynamic mechanical properties of the obtained composites were studied subsequently. SEM observations

## Abstract **Summary:** This article reports on the dynamic mechanical and thermal properties of thermosetting phenylethynyl‐terminated polyimide (PETI‐5) composites reinforced with expanded graphite (EG) nanoplatelets having various average particle sizes and content. The EG nanoplatelets with va