Application of pyrolysis-capillary gas chromatography with NPD detection in thermal degradation of polyphosphazenes study

Paulsdorf J, Wiemhöfer HD, Orinak A, Zamostny P, Belohlav Z, Baxter D

Abstract

Polyphosphazenes represent a unique class of polymers with a backbone composed of alternating phosphorous and nitrogen atoms. The thermal behaviour and decomposition of a variety of polyphosphazenes depends on the type of side groups present. Especially those that bear aryloxy side groups, possess a high temperature stability as well as excellent flame resistance. Pyrolysis-capillary gas chromatography has been used in a study of three polyphosphazene samples for thermal stability characterisation. Degradation products were detected with three single detectors for flame ionisation (FID), nitrogen-phosphorous sensitivity (NPD) and mass spectrometry (MSD) at different pyrolysis temperatures ranging from 300 degrees C up to 800 degrees C. The NPD responses for phosphorous or nitrogen fragments of polyphosphazenes have been used for the construction of degradation product schemes and the examination of the thermal stability of the polyphosphazene's backbone. Partial identification of the degradation products present in the gaseous phase was achieved by MSD. The polyphosphazenes thermal degradation conversion rates were at a maximum at 450-500 degrees C. At various pyrolysis temperatures, the calculated N/P peak area ratio is a function of the degree of polyphosphazene -N=P- chain degradation, and reflective of the nitrogen - phosphorous detector sensitivity. NPD proved to be suitable tool for characterization of polyphospazene thermal stability. (C) Versita Warsaw and Springer-Verlag Berlin Heidelberg. All rights reserved.