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Fireproof performance of the intumescent fire retardant coatings with layered double hydroxides additives
https://orcid.org/0000-0003-0518-3275
Highlights Addition of MgAlCO3-LDHs and CaAlCO3-LDHs improved thermal insulation of IFR coating. Metal ions from LDHs were chelated with carbon materials to form 3D reticular char. LDHs can delay oxidation and improve degradation performance of char layers.
Abstract MgAlCO3-layered double hydroxides (LDHs) and CaAlCO3-LDHs were respectively added as a synergistic agent to intumescent fire retardant (IFR) coatings. The 2.4 wt% of MgAlCO3-LDHs and the 6.7 wt% of CaAlCO3-LDHs were found to possess the best thermal insulation according to the fire performance tests. Further characterization by a cone calorimeter shows that the MgAlCO3-LDHs are superior to decreasing the specific extinction area of IFR coating, and the CaAlCO3-LDHs are advantageous in some other properties such as heat release rate, effective heat combustion and total heat release. Moreover, the X-ray diffraction (XRD) results infer that the flame retardant of char layer is primarily dependent on the amorphous structure formed after exposure to fire, the X-ray photoelectron spectroscopy (XPS) measurements of O1s, C1s, P2p and N1s reveal that the LDHs fillers suppress the oxidation of the IFR coating, and the Fourier transform infrared spectroscopy (FTIR) tests demonstrate that the LDHs protect the bridge frame structures. It is concluded that the LDHs can prevent the degradation and improve the thermal insulation of IFR coatings.
Fireproof performance of the intumescent fire retardant coatings with layered double hydroxides additives
https://orcid.org/0000-0003-0518-3275
Highlights Addition of MgAlCO3-LDHs and CaAlCO3-LDHs improved thermal insulation of IFR coating. Metal ions from LDHs were chelated with carbon materials to form 3D reticular char. LDHs can delay oxidation and improve degradation performance of char layers.
Abstract MgAlCO3-layered double hydroxides (LDHs) and CaAlCO3-LDHs were respectively added as a synergistic agent to intumescent fire retardant (IFR) coatings. The 2.4 wt% of MgAlCO3-LDHs and the 6.7 wt% of CaAlCO3-LDHs were found to possess the best thermal insulation according to the fire performance tests. Further characterization by a cone calorimeter shows that the MgAlCO3-LDHs are superior to decreasing the specific extinction area of IFR coating, and the CaAlCO3-LDHs are advantageous in some other properties such as heat release rate, effective heat combustion and total heat release. Moreover, the X-ray diffraction (XRD) results infer that the flame retardant of char layer is primarily dependent on the amorphous structure formed after exposure to fire, the X-ray photoelectron spectroscopy (XPS) measurements of O1s, C1s, P2p and N1s reveal that the LDHs fillers suppress the oxidation of the IFR coating, and the Fourier transform infrared spectroscopy (FTIR) tests demonstrate that the LDHs protect the bridge frame structures. It is concluded that the LDHs can prevent the degradation and improve the thermal insulation of IFR coatings.
Fireproof performance of the intumescent fire retardant coatings with layered double hydroxides additives
https://orcid.org/0000-0003-0518-3275
Highlights Addition of MgAlCO3-LDHs and CaAlCO3-LDHs improved thermal insulation of IFR coating. Metal ions from LDHs were chelated with carbon materials to form 3D reticular char. LDHs can delay oxidation and improve degradation performance of char layers.
Abstract MgAlCO3-layered double hydroxides (LDHs) and CaAlCO3-LDHs were respectively added as a synergistic agent to intumescent fire retardant (IFR) coatings. The 2.4 wt% of MgAlCO3-LDHs and the 6.7 wt% of CaAlCO3-LDHs were found to possess the best thermal insulation according to the fire performance tests. Further characterization by a cone calorimeter shows that the MgAlCO3-LDHs are superior to decreasing the specific extinction area of IFR coating, and the CaAlCO3-LDHs are advantageous in some other properties such as heat release rate, effective heat combustion and total heat release. Moreover, the X-ray diffraction (XRD) results infer that the flame retardant of char layer is primarily dependent on the amorphous structure formed after exposure to fire, the X-ray photoelectron spectroscopy (XPS) measurements of O1s, C1s, P2p and N1s reveal that the LDHs fillers suppress the oxidation of the IFR coating, and the Fourier transform infrared spectroscopy (FTIR) tests demonstrate that the LDHs protect the bridge frame structures. It is concluded that the LDHs can prevent the degradation and improve the thermal insulation of IFR coatings.
Fireproof performance of the intumescent fire retardant coatings with layered double hydroxides additives
Hu, Xiaochun (Autor:in) / Zhu, Xiaojun (Autor:in) / Sun, Zhiqiang (Autor:in)
03.05.2020
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
APP , ammonium polyphosphate , DTA , differential thermal analysis , EHC , effective heat combustion , FTIR , Fourier transform infrared spectroscopic analyses , HRR , heat release rate , IFR , intumescent fire retardant , MD , mass difference , MEL , melamine , ML , mass loss , MLR , mass loss rate , PER , pentaerythritol , SEA , specific extinction area , SEM , scanning electron microscopy , SPR , smoke production ratio , TG , thermogravimetry , THR , total heat release , TSP , total smoke production , TSR , total smoke release , XPS , X-ray photoelectron spectroscopy , XRD , X-ray diffraction , Intumescent fire retardant coating , MgAlCO<inf>3</inf>-LDHs , CaAlCO<inf>3</inf>-LDHs , Char layer
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