The effect of length and diameter on the resistivity of bromine intercalated graphite fibers

When the bromine residue in graphite is heated and cooled between 20" and 900°C there is an emission of Brz over certain relatively small temperature ranges on both heating and cooling. It is shown that two of these emissions are associated with observed decreases in X-ray diffraction spacing betwee

The effect of calcium, iron, silicon, titanium and vanadium was determined on the rates of carbon-oxygen, carbon-carbon dioxide and carbon-steam reactions. A general equation describing the weight loss-exposure time relationship was also developed for all reaction systems investigated. ## 84. Infiu

Four different grades of pitch-based graphite fibers (Amoco P-55, P-75, P-100, and P-120) were intercalated with each of four different intercalates: bromide (Br,), iodine monochloride (ICI), copper(I1) chloride (CuCI,), and nickel(H) chloride (Nit&). The P-55 fibers did not react with Br? or Nit&,

The electrical resistivity of graphite fibers intercalated with iodine monochloride was found to vary with the applied electric power, such that the electrical resistivity increased reversibly by up to 90% upon the application of electric power up to 7 x lo-' W/cm of a single fiber. The increase was