Surface nitrogen chemistry of PAN carbon fibres

A~~act-Surface characteristics of the three types of commercial carbon fibres from PAN, in both treated and untreated forms, have been investigated along with a series of high modulus (HM) fibres oxidised in HNO,. N, adsorption isotherms have been used to elucidate physical characteristics and Oz ch

PAN-based carbon fibres carbonised at relatively low temperature, i.e. type III carbon fibres, were submitted to heat treatment at 2300 8C (GR) or oxidation in nitric acid. The samples were characterised by XPS, FTIR, wetting measurements, gas adsorption, elemental analysis and acid / base titration

The adsorption of n-butylamine, n-butyric acid, n-butanol and 1.2 epoxy propane from n-heptane solutions onto carbon fibres (PAN) has been investigated by flow microcalorimetry. No adsorption of n-butyric acid could be detected, but the adsorption of n-butanol and 1.2 epoxy propane was reversible an

An outline of the technological progress of PAN.based carbon fibre in the past several years is described with special emphas/s on the introduction of the newly developed high performance carbon f'dares. The tensile strength and modulus of PAN.based carbon fibres have increased significantly in rece