2020
DOI: 10.1021/acsomega.0c02584
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Co-Effect Flame Retardation of Co3O4-Loaded Titania Nanotubes and α-Zirconium Phosphate in the Epoxy Matrix

Abstract: Like most macromolecule polymers, epoxy resin (EP) is easy to burn, and there are great fire safety hazards in the process of use. Therefore, how to improve the fire safety of EP becomes one of the problems to be considered in the application of EP. In this study, tricobalt tetraoxide (Co3O4)-loaded TiO2 nanotube (TNT) (Co3O4-TNT) hybrid material was prepared by the co-precipitation method, and organophilic α-ZrP (OZrP) was obtained by hexadecyl trimethyl ammonium bromide-intercalated α-zirconium phosphate (α-… Show more

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Cited by 8 publications
(4 citation statements)
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References 39 publications
(52 reference statements)
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“…Based on the analysis of the gaseous and condensed phases, the excellent flame retardancy of BNNO@Co 3 O 4 @PPZ nanohybrid flame retardant, as shown in Figure 11 , can be ascribed to the joint effect of BNNO, Co 3 O 4 , and PPZ. During the combustion, Co 3 O 4 in the inner layer of nanohybrid flame retardant can catalyze CO, NO, and other combustible pyrolysis gases to generate CO 2 , NO 2 , and non-combustible gases, thus suppressing the toxic gases [ 41 , 56 , 61 , 62 ], which is consistent with the results of TG-IR. PPZ and Co 3 O 4 can catalyze the formation of carbon, which is conducive to the formation of a denser char layer.…”
Section: Resultssupporting
confidence: 84%
“…Based on the analysis of the gaseous and condensed phases, the excellent flame retardancy of BNNO@Co 3 O 4 @PPZ nanohybrid flame retardant, as shown in Figure 11 , can be ascribed to the joint effect of BNNO, Co 3 O 4 , and PPZ. During the combustion, Co 3 O 4 in the inner layer of nanohybrid flame retardant can catalyze CO, NO, and other combustible pyrolysis gases to generate CO 2 , NO 2 , and non-combustible gases, thus suppressing the toxic gases [ 41 , 56 , 61 , 62 ], which is consistent with the results of TG-IR. PPZ and Co 3 O 4 can catalyze the formation of carbon, which is conducive to the formation of a denser char layer.…”
Section: Resultssupporting
confidence: 84%
“…As can be seen in Figures 13 and 14 They mentioned that the SEM morphology revealed a surface rougher with several irregular wrinkles and good interaction force between the nanoparticles and the EP matrix. 64 Castillo and Barbosa studied the effect of hydrated magnesium silicates with different particle morphologies, such as platelets (talc) and fibers (sepiolite) in PP nanocomposites. SEM micrographs of nanocomposites containing a king of sepiolite revealed the presence of fiber aggregates indicating that the dispersion was not totally effective.…”
Section: Scanning Electron Microscopy (Sem)mentioning
confidence: 99%
“…In recent years, two‐dimensional nanomaterials have attracted the attention of researchers and have been broadly utilized within the areas of fire retardants, 3 heat conduction, 4 and semiconductors 5 . Common two‐dimensional materials include graphene, 6 double‐layer hydroxide, 7 carbon nitride, 8 boron nitride, 9 and others 10 . Similar to graphene, hexagonal boron nitride is a layered compound with low density, 11 high thermal conductivity, 12 and high‐temperature resistance, 13 which have been widely used in various fields.…”
Section: Introductionmentioning
confidence: 99%
“…5 Common two-dimensional materials include graphene, 6 double-layer hydroxide, 7 carbon nitride, 8 boron nitride, 9 and others. 10 Similar to graphene, hexagonal boron nitride is a layered compound with low density, 11 high thermal conductivity, 12 and high-temperature resistance, 13 which have been widely used in various fields. Hexagonal boron nitride (h-BN) has a twodimensional lamellar structure, which may provide a good physical barrier function, 14 and due to its unique crystal structure, it has high thermal conductivity.…”
Section: Introductionmentioning
confidence: 99%