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Enhancement of flame retardancy and physical property for poly(vinyl chloride) having renewable cardanol-based self-polymerizable phosphonate under heat treatment process

Min‐Ji Sim, Sang‐Ho Cha, Jong‐Chan Lee

2021Polymer Testing25 citationsDOIOpen Access PDF

Abstract

Considering the drawbacks of conventional plasticizers used for poly(vinyl chloride) (PVC), it is imperative to develop bio-based additives. Herein, bis(cardanyl) phenylphosphonate (CP), which is not only a flame retardant but also a plasticizer for PVC, was designed and synthesized from cardanol. The flame retardancy and flexibility of PVC improved with an increase in the CP content (wt%) because of the presence of the phosphonate group and long alkyl chain of CP, respectively. Meanwhile, we found that CP can be self-polymerized by heat treatment and that the cross-linked network of CP leads to an additional enhancement in the flame retardancy of PVC by inducing anti-dripping property and the formation of graphitized char layer. Also, the flexibility of the PVC films was preserved without deteriorating its transparency. CP with self-polymerization properties is a promising candidate to improve the thermal stability, flame retardancy, and flexibility of PVC while maintaining its transparency and migration stability.

Topics & Concepts

CardanolMaterials sciencePlasticizerThermal stabilityVinyl chloridePolymerizationPhosphonateFire retardantChemical engineeringPolyvinyl chlorideAlkylPolymer chemistryComposite materialOrganic chemistryPolymerChemistryEpoxyEngineeringCopolymerPolymer Science and PVCFlame retardant materials and propertiesbiodegradable polymer synthesis and properties
Enhancement of flame retardancy and physical property for poly(vinyl chloride) having renewable cardanol-based self-polymerizable phosphonate under heat treatment process | Litcius