The chlorination of ethylene and propylene. I. The chlorination of ethylene

## Abstract The work on the chlorination at ordinary temperatures of the lower olefines in the liquid phase, and in the presence of ferric chloride and antimony trichloride as catalysts, has been continued, and the reactions of propylene have been studied. As with ethylene, the main reaction was t

## Abstract Vapor transport offers one the unique ability to study structure–property relationships in polymers. An analysis of the transport of chlorinated hydrocarbons through nylon/ethylene–propylene rubber (EPR) blend membranes showed us how the permeation behavior varied according to the struc

## Abstract Several H‐zeolites (H‐Y, H‐ZSM‐5 and H‐MOR) were investigated for the catalytic combustion of chlorinated ethylenes, namely 1,1‐dichloroethylene and trichloroethylene. Conversion was inversely related to the chlorine content of the feed molecule. H‐ZSM‐5 zeolite was the most active cata

## Abstract The action of various catalysts in the chlorination of α‐chloro‐ethylbenzene has been studied. Although the use of ferric chloride, antimony pentachloride and titanic chloride leads to decomposition with the evolution of hydrogen chloride, nuclear substitution takes place readily in the

## Abstract The kinetics of the reactions of F and C1 atoms with ethylene oxide have been studied using relative rate techniques in 10–700 Torr of either nitrogen or air diluent at 295 ± 2 K; __k__(F + C~2~H~4~O) = (9.4 ± 1.6) × 10^−11^ and __k__(C1 + C~2~H~4~O) = (5.0 ± 0.9) × 10^−12^ cm^3^ molecu