Effect of macrostructure on the strength of polycrystalline graphite

An effective conductivity (thermal or electrical) is derived for polycrystaltine graphite using a very simple approach. The material is modeled as a series of links and junctions, the former representing the crystallies and the latter the intercrystallite region. The large anisotropy of the principa

Petroleum coke has been reduced in size in various types of size reduction equipment. Test samples were fabricated from the ground coke by molding and extrusion and, subsequently, graphitized. Properties of the final graphite were determined and did not show any marked effect from the type of side r

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