Abstract
Wood plastic composites (WPCs) are facing fire hazard and aging when they are used as building materials. In current work, ammonium polyphosphate-based flame retardant decorated with caffeic acid (MAPP-CA) was prepared by the two-step reaction of ammonium polyphosphate (APP), ethylenediamine, and caffeic acid. The chemical structure of MAPP-CA was characterized by different measurements. When the loading amount of MAPP-CA was 25 wt% in WPC, WPC/MAPP-CA25 sample passed the UL-94 V-0 rating and limited oxygen index (LOI) value reached 26.5%. Compared with WPC, WPC/MAPP-CA25 showed significantly lower heat release and smoke release. Besides, MAPP-CA improved the anti-aging property of WPC. According to oxidation induction time (OIT) result of WPC, WPC/APP25 and WPC/MAPP-CA25. The OIT of WPC/MAPP-CA25 is much longer than that of WPC (17.8 min) and WPC/APP25 (36.8 min), about 7.4 and 3.6 times of the latter two, respectively. Further, the retention ratios of mechanical properties showed that the retention in flexural strength and notched impact strength for WPC/MAPP-CA25 is superior to that of WPC/APP25 and WPC after aging at 120 ℃. Flame-retardant and anti-aging mechanisms of MAPP-CA were investigated in detail. This work opens a new route for upgrading traditional flame retardant.
Published Version
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