Carbon nitride/polyaniline/metal oxide composite system endows epoxy resin with reinforcements in the fire safety, thermal stability, and water resistance

Reducing the fire risk of epoxy coatings has been a significant focus in the research of thermosetting resin materials. Various carbon nitride/polyaniline/metal oxide hybrids (CNPMOs) were synthesized using in‐situ oxidative polymerization and modified adsorption methods. Combustion analysis results...

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Veröffentlicht in:	Journal of applied polymer science 2024-10, Vol.141 (40), p.n/a
Hauptverfasser:	Cui, Jiahui, Ou, Mingyu, Guan, Haocun, Lian, Richeng, Geng, Yiwei, Zhao, Zexuan, Li, Rongjia, Liu, Lei, Chen, Xilei, Jiao, Chuanmei
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Sprache:	eng
Schlagworte:	Carbon nitride Combustion Epoxy coatings Epoxy resins Fire resistance Fire safety Hydrophobicity Metal oxides Oxidation resistance Polyanilines Substrates Thermal resistance Thermal stability Thermosetting resins Water absorption Water resistance
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container_issue	40
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container_title	Journal of applied polymer science
container_volume	141
creator	Cui, Jiahui Ou, Mingyu Guan, Haocun Lian, Richeng Geng, Yiwei Zhao, Zexuan Li, Rongjia Liu, Lei Chen, Xilei Jiao, Chuanmei
description	Reducing the fire risk of epoxy coatings has been a significant focus in the research of thermosetting resin materials. Various carbon nitride/polyaniline/metal oxide hybrids (CNPMOs) were synthesized using in‐situ oxidative polymerization and modified adsorption methods. Combustion analysis results indicated that CNPMOs effectively reduced the heat release of epoxy coatings during combustion. The epoxy coatings containing various CNPMOs (EFe, EY, and ETi) exhibited excellent smoke suppression and toxicity reduction properties. Furthermore, in comparison to the pure sample (E0) and reference sample (E1), the epoxy coatings EFe, EY, and ETi demonstrated improved thermal stability. In water resistance tests, the water absorption rates of EFe, EY, and ETi were significantly lower than that of E0. The CNPMOs enhanced the hydrophobicity of the epoxy coating to better protect the substrate in humid environments. Carbon nitride/polyaniline/metal oxide hybrids (CNPMOs) can effectively enhance the fire safety, thermal stability, and water resistance of epoxy resin coatings.
doi_str_mv	10.1002/app.56047
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subjects	Carbon nitride Combustion Epoxy coatings Epoxy resins Fire resistance Fire safety Hydrophobicity Metal oxides Oxidation resistance Polyanilines Substrates Thermal resistance Thermal stability Thermosetting resins Water absorption Water resistance
title	Carbon nitride/polyaniline/metal oxide composite system endows epoxy resin with reinforcements in the fire safety, thermal stability, and water resistance
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