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Surface electrostatic assembly for enhancing the fire safety, compatibility and mechanical performance of triazin-based intumescent flame retardant systems in styrene thermoplastic elastomers

Xueqian Fan, Ao Qin, Shuhui Liang, Peirui Song, Yukun Tang, Chentao Yan, Yue Xu, Lubin Liu

2026Polymer Degradation and Stability12 citationsDOI

Topics & Concepts

IntumescentMaterials scienceFire retardantComposite materialAmmonium polyphosphateCompatibility (geochemistry)CharringPentaerythritolMelamineElastomerAcrylonitrile butadiene styreneNatural rubberFlammabilityThermoplasticCarbonizationPolylactic acidPolymerThermoplastic polyurethaneHeat deflection temperatureThermoplastic elastomerWettingChemical engineeringIzod impact strength testPolypropylenePolyamideStyreneBlowing agentNanocompositeThermal stabilityFire performanceFlame retardant materials and propertiesPolymer composites and self-healingEnergetic Materials and Combustion
Surface electrostatic assembly for enhancing the fire safety, compatibility and mechanical performance of triazin-based intumescent flame retardant systems in styrene thermoplastic elastomers | Litcius