Configurational characteristics of trans‐1,4‐polychloroprene: Experimental results on the unperturbed dimensions and their temperature coefficient

Abstract

AbstractPolychloroprene [CClCHCH2CH2]x of approximately 95% trans‐1,4 stereochemical structure was prepared by low‐temperature emulsion polymerization. Fractions, obtained by liquid–liquid precipitations were studied in toluene solutions at 30°C by viscometry and osmometry. In addition, force–temperature measurements were carried out on networks of the polymer in the amorphous state. The results obtained on the polymer solutions indicate that the unperturbed dimensions of trans‐1,4‐polychloroprene are essentially the same as those of trans‐1,4‐polybutadiene of the same molecular weight. This observation, that substitution of a relatively large Cl atom for one of the methine H atoms in the trans‐1,4‐polybutadiene repeat unit has little effect on the chain dimensions, suggests that this increase in substituent size is offset by the fact that the length of a CCl bond is very much greater than that of a CH bond. The results obtained on the polymer networks indicate that the unperturbed dimensions of trans‐1,4‐polychloroprene decrease significantly with increasing temperature, as has also been reported for both trans‐1,4‐polybutadiene and trans‐1,4‐polyisoprene.