Diamagnetic studies on as-processed carbon fibers

Abstract

The diamagnetic susceptibilities of a wide range of commercially available carbon fiber types have been investigated in the as‐processed condition by the Faraday method at room temperature using small bundles of aligned fibers. The tensor trace (total) susceptibility χ_T varies systematically over the range 0.8–20 (in units of −10⁻⁶ emu/g) as a function of precursor type and processing history. In general, χ_T increases with increasing nominal treatment temperature and hot stretching, and with increasing tensile elastic modulus E; but there are significant differences in the behavior of fibers from rayon or isotropic pitch and those from polyacrylonitrile (PAN). However, the anisotropy ratio χ_radial/χ_axial increases approximately linearly with E for all fibers (from ∼1 for E?70 GN/m² to ∼22 at 700 GN/m² in air); and is quantitatively consistent with the layer‐plane orientation textures determined by x‐ray diffraction when appropriate values of the ’’crystallite’’ principal susceptibilities χ_a and χ_c are used. These are determined by setting χ_a=0.32, the graphite value, and computing the structure‐dependent χ_c value from the observed χ_T. The dependence of χ_T on apparent layer size L_a is similar to that of glassy carbons. The significance of these results is discussed in relation to the characterization of carbon fibers and the structure dependence of the diamagnetism of disordered carbons.