The work presents an evidence in support of chain length dependent termination during cross-linking polymerization. It is based on the behavior of the ratio of the bimolecular termination coefficient k(t)(b) to propagation rate coefficient k(p) during the after-effect of a photo-induced polymerization. The chain-length dependence was manifested by a decrease of the k(t)(b)/k(p) ratio with the increase in dark reaction time faster than that resulting from the conversion increase. Two monomethacrylate/dimethacrylate, and one dimethacrylate/dimethacryl ate systems were chosen, which enabled to study the chain-length dependence as a function of cross-link density of the polymer being formed and physical properties of the initial composition. The ratios of the polymerization rate coefficients k(t)(b)/k(p) were calculated for various postpolymerization processes as a function of dark reaction conversion using the mixed termination model (concerning the bimolecular and monomolecular termination occurring parallel). A rapid drop of the k(t)(b)/k(t) ratio during the dark reaction was observed at the beginning of the after-effect and in slightly cross-linked systems suggesting a significant chain length dependence, but when the cross-link density increased with conversion or with cross-linking agent concentration in the feed, the drop of the k(t)(b)/k(t) ratio became much slower indicating that the chain length dependence decreased. (c) 2005 Elsevier Ltd. All rights reserved.