Flame-retarding materials. II. Synthesis and flame-retarding properties of phosphorus-on-pendent and phosphorus-on-skeleton polyols and the corresponding polyurethanes

Abstract

A phosphorus‐on‐skeleton compound was synthesized by reacting phenyl dichlorophosphate (PDCP) with 2‐hydroxyethyl methacrylate (HEMA). This monomer was then copolymerized with other acrylic monomers to form a hydroxy‐containing copolymer, which was then used as the polyol in the synthesis of a polyurethane. Phosphorus‐on‐pendent copolymers and phosphorus‐free copolymers and their corresponding polyurethanes were also prepared for comparison with the phosphorus‐on‐skeleton material in terms of their flame‐retardant properties. The flame retardancy and degradation mechanism of these copolymers and polyurethanes were analyzed with thermogravimetric analysis (TGA) and infrared spectroscopy. Although those phosphorus‐on‐skeleton copolymer polyols have less flame‐retarding ability than that of the phosphorus‐on‐pendent copolymer polyol because of less phosphorus content, it was evident that the phosphorus‐on‐skeleton polyurethanes were more effective flame retardants than the phosphorus‐on‐pendent polyurethanes. This was attributed to the fact that the crosslinking arising from the phosphorus‐on‐skeleton copolymer polyols has a tremendous effect on the flame‐retarding ability of the corresponding polyurethanes. © 2001 John Wiley & Sons, Inc. J Appl Polym Sci 82: 343–357, 2001