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Biopolymers as alternatives to synthetic polymers in flame‐retarded polymeric composites: A study of fire and mechanical behaviors

Fernando Teles, Filipe Antunes

2022Journal of Vinyl and Additive Technology13 citationsDOI

Abstract

Abstract The impact of polymeric materials on the environment is a growing concern and an incentive for their commercial appeal. In composites, the trend is to replace matrices of synthetic polymers (SPs) with biopolymers (BPs) to develop bio‐based composites. The increasing demand for such materials has driven their research and application in many industrial sectors, often accompanied by increasingly restrictive fire safety regulations. With the aim of decreasing the flammability of composites, various approaches have been pursued, in particular the use of flame‐retardant (FR) additives. However, at high FR loads, the mechanical properties can be compromised. This article briefly overviews some aspects of the fire behavior and mechanical properties of BPs and bio‐based composites. Using a chart‐based framework and quadrant‐based quantitative analysis, the fire and mechanical properties of flame‐retarded composite formulations are evaluated simultaneously, aimed at comparing the effects of BPs and SPs in flame‐retarded polymeric composites in relation with other variables.

Topics & Concepts

FlammabilityMaterials scienceFire retardantComposite materialFire performancePolymerComposite numberFire resistanceFlame retardant materials and propertiesNatural Fiber Reinforced Compositesbiodegradable polymer synthesis and properties
Biopolymers as alternatives to synthetic polymers in flame‐retarded polymeric composites: A study of fire and mechanical behaviors | Litcius