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Bio-Inspired Aramid Fibers@silica Binary Synergistic Aerogels with High Thermal Insulation and Fire-Retardant Performance

Jinman Zhou, Xianyuan Liu, Xiaojiang He, Haoxin Wang, Dongli Ma, Xianyong Lu

2022Polymers18 citationsDOIOpen Access PDF

Abstract

Flame-retardant, thermal insulation, mechanically robust, and comprehensive protection against extreme environmental threats aerogels are highly desirable for protective equipment. Herein, inspired by the core (organic)-shell (inorganic) structure of lobster antenna, fire-retardant and mechanically robust aramid fibers@silica nanocomposite aerogels with core-shell structures are fabricated via the sol-gel-film transformation and chemical vapor deposition process. The thickness of silica coating can be well-defined and controlled by the CVD time. Aramid fibers@silica nanocomposite aerogels show high heat resistance (530 °C), low thermal conductivity of 0.030 W·m−1·K−1, high tensile strength of 7.5 MPa and good flexibility. More importantly, aramid fibers@silica aerogels have high flame retardancy with limiting oxygen index 36.5. In addition, this material fabricated by the simple preparation process is believed to have potential application value in the field of aerospace or high-temperature thermal protection.

Topics & Concepts

Fire retardantAramidMaterials scienceThermal insulationFire performanceComposite materialFlammabilityAerogelThermal stabilityThermalChemical engineeringFiberFire resistanceLayer (electronics)EngineeringMeteorologyPhysicsAerogels and thermal insulationPolymer composites and self-healingSurface Modification and Superhydrophobicity
Bio-Inspired Aramid Fibers@silica Binary Synergistic Aerogels with High Thermal Insulation and Fire-Retardant Performance | Litcius