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Flame retardancy of thermoplastic polyesters—a review of the recent literature
323
Citations
37
References
2004
Year
EngineeringFlame RetardancyMechanical EngineeringChemistryThermoplastic CompositeLaminar FlamePolymersThermosetsChemical EngineeringPolymer TechnologyFire RetardancyPet TextilesPolymer ProcessingPolymer ChemistryFire ChemistryMaterials SciencePolymer AnalysisPbt ConsistPolymer SciencePolymer CharacterizationFunctional PolymerFunctional MaterialsPolymer Additive
The review surveys flame‑retardant strategies for thermoplastic polyesters, notably PET and PBT, highlighting the challenge of their volatile combustion products and the shift from halogen‑containing additives to halogen‑free phosphorus‑based systems used in textiles and recently in PBT. The authors focus on studies published over the last fifteen years, while also discussing earlier influential work. © 2004 Society of Chemical Industry.
Abstract An overview is presented of the literature on the flame retardancy of thermoplastic polyesters, especially poly(ethylene terephthalate) (PET) and poly(butylene terephthalate) (PBT). The main focus is on publications of the last fifteen years; however, some earlier work of major importance is discussed as well. Because PET and PBT almost totally convert to volatile fragments upon exposure to heat, providing fuel to the flame, it is a challenging task to flame‐retard these polymers. Although many of the commercially available systems for flame retardancy of PET and PBT consist of a halogen‐containing additive and a synergist, more recent publications and patents emphasize halogen‐free, particularly phosphorus‐based systems. Several phosphorus‐based additive or reactive systems are well‐established for use in PET textiles, and phosphorus‐based additives have recently been introduced for PBT. Copyright © 2004 Society of Chemical Industry
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