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Aluminum dihydrogen phosphate-melamine modified hollow spheres/epoxy composites: Enhanced flame retardancy, thermal insulation and wave-absorbing properties

Yunxin Ai, Zhaoqi Zhu, Weijun Liu, Hanxue Sun, Jiyan Li, Rui Jiao, An Li

2025Chemical Engineering Journal13 citationsDOI

Topics & Concepts

Materials scienceLimiting oxygen indexCalcinationThermal conductivityMelamineAmmonium dihydrogen phosphateComposite materialHydrothermal circulationCone calorimeterComposite numberEpoxyThermal insulationChemical engineeringFlame testAluminiumFlame spreadThermogravimetric analysisCombustionAbsorption (acoustics)Thermal stabilityTemplate method patternRaw materialDiamondHydrothermal synthesisHeat of combustionOxygenFireproofingElectrical conductorCitric acidConductivityThermal resistancePyrolysisFlame retardant materials and propertiesFire dynamics and safety researchEnvironmental and Industrial Safety
Aluminum dihydrogen phosphate-melamine modified hollow spheres/epoxy composites: Enhanced flame retardancy, thermal insulation and wave-absorbing properties | Litcius