Photocrosslinking of polyethylene. I. Photoinitiators, crosslinking agent, and reaction kinetics

Abstract

AbstractHigh density polyethylene has been photocrosslinked in the melt by using 4‐chlorobenzophenone (4‐CBP) as photoinitiator and triallylcyanurate (TAC) as crosslinking agent. Various factors affecting the crosslinking process (photoinitiator used and its concentration, irradiation temperature and time, atmosphere, UV light source, light intensity) were examined. By optimizing the irradiation conditions, it was found that samples up to 2 mm thick could readily be crosslinked to high gel content (≈ 90%) with satisfactory homogeneity within very short irradiation times (≈ 15 s). The kinetic analysis of the crosslinking process showed a linear relation between log S and log t (S is the sol fraction t is the irradiation time). An induction period was observed, the length of which decreased with increasing concentration of 4‐CBP and increasing light intensity. An upper limit of gel content was also found for long irradiation times at a level depending on the concentration of 4‐CBP. The crosslinking rate was proportional to the second order of light intensity at lower intensity and changed to first order at higher light intensity. A mechanism based on the recombination of chain radicals through both allyl and alkyl type radicals of TAC was proposed.