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An Environmentally Friendly Nanohybrid Flame Retardant with Outstanding Flame-Retardant Efficiency for Polypropylene

Na Wang, Shaopeng Chen, Lingtong Li, Zhuyu Bai, Jianbing Guo, Jun Qin, Xiaolang Chen, Rui Zhao, Kun Zhang, Hong Wu

2021The Journal of Physical Chemistry C34 citationsDOI

Abstract

A facile method to fabricate nanohybrid flame retardants has become increasingly important to enhance the flame-retardant efficiency and adhesion in interfaces between polymer matrix and the flame retardants. Polypropylene (PP) is a vital thermoplastic polymer family member; however, its flame retardancy remains a big challenge because of its other seriously deteriorated properties. In this present work, an environmentally friendly nanohybrid expandable graphite (nHEG) has been successfully designed and synthesized in situ via a one-pot strategy of the first flame-retardant PP by introducing nano-SiO2 particles into the surface and interlamination of graphite lamellas. The performance of PP composites is modulated through regulating nHEG content and nano-SiO2 distribution as the catalytic charring agent, and expandable graphite (EG) is used to be the flame-retardant unit in the synthesis process. PP composites obtain the UL-94 V0 rating by the UL-94 test. The enhanced flame retardancy can be attributable to the formation of continuous and tight char residues. The sample with the highest flame retardancy maintains a tensile strength of 32.7 MPa and 9.3 kJ/m2 of notched impact strength, respectively. Therefore, the nanohybrid flame-retardant PP composites show extensive applications.

Topics & Concepts

Fire retardantMaterials sciencePolypropyleneComposite materialUltimate tensile strengthCharCharringEnvironmentally friendlyPolymerGraphiteChemical engineeringPyrolysisEngineeringBiologyEcologyFlame retardant materials and propertiesElectromagnetic wave absorption materialsFiber-reinforced polymer composites
An Environmentally Friendly Nanohybrid Flame Retardant with Outstanding Flame-Retardant Efficiency for Polypropylene | Litcius