Thermal stability and degradation of aromatic polyamides. 1. Pyrolysis and hydrolysis pathways, kinetics and mechanisms of N-phenylbenzamide

Poly(m-phenylenediamineisophthyl)amide (MPD-I) is a polymer that is particularly well suited for the manufacture of filters, due to its high chemical and thermal resistance as well as processability characteristics. The degradation of this polymer was studied, both as fibers and as a filter cloth, i

An experimental study to determine the effect of copper (I) iodide (CuI) on the rate and product distribution of degradation of a model of an aliphatic-aromatic polyamide was carried out. N,W-Dihexylisophthalamide (DHI) was reacted in both an inert argon atmosphere and a pure oxygen environment at 3

The kinetics of the thermal conversion of aromatic hydrocarbons in the presence of hydrogen and steam were studied, using anphthalene, toluene and benzene as model compounds. The experiments were performed in a tubular flow reactor at a total pressure of 160 KPa, temperatures of 700-14OO"C, residenc

02 Liquid fuels (derived liquid fuels) 97101799 Mechanism of transformations of model heterocyclic compounds in hydrorefining reactions Lewandowski. M. and Sarhak