Peibang Dai scite author profile

With the aim of improving compatibility between intumescent flameretardant (IFR) acrylonitrile-butadiene-styrene (ABS) composites, we have prepared a modified intumescent flame-retardant composite (IFRC) powder by compounding the three components of the IFR normally used with TX-10 surfactant/polyacrylate latex. The ABS/IFRC composites were compared with the unfilled ABS by investigating their thermal degradation and combustion behaviors with differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), and a cone calorimeter (CONE). The DSC and TGA data showed that the thermal stability of the ABS/IFRC at high temperature could be enhanced and the char residue formation was effectively increased by comparison with the ABS. The CONE results revealed that IFRC was clearly able to change the decomposition behavior of ABS and form a char layer on the surface of the composites, resulting in an efficient reduction of their flammability parameters compared with the ABS, such as the heat release rate, total heat release, rate of smoke release, total smoke release, and so on.

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Improvement in dielectric constant of carbon black/epoxy composites with separated structure by surface-modified hollow glass beads with reduced graphene oxide

Huang

Dai

et al. 2019

Composites Science and Technology

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Effect of Modified Intumescent Flame Retardant via Surfactant/Polyacrylate Latex on Properties of Intumescent Flame Retardant ABS Composites

Dai

Wang

et al. 2008

Journal of Macromolecular Science, Part B

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A reduced graphene oxide–borate compound-loaded melamine sponge/silicone rubber composite with ultra-high dielectric constant

Zhang

Dai

et al. 2019

RSC Adv.

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Significantly enhancing fracture toughness of epoxy composite with promising γ-FeOOH@Fe2O3 hybrid nanoparticles by magnetic field assistance

Guan

et al. 2022

Nano Materials Science

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Peibang Dai

Interlaminar fracture toughness and conductivity of carbon fiber/epoxy resin composite laminate modified by carbon black-loaded polypropylene non-woven fabric interleaves

Improving in-plane and out-of-plane thermal conductivity of polyimide/boron nitride film with reduced graphene oxide by a moving magnetic field induction

Enhancing thermal conductivity of polyimide composite film by electrostatic self-assembly and two-step synergism of Al₂O₃ microspheres and BN nanosheets

Thermal Degradation and Combustion Behavior of a Modified Intumescent Flame-retardant ABS Composite

Improvement in dielectric constant of carbon black/epoxy composites with separated structure by surface-modified hollow glass beads with reduced graphene oxide

Effect of Modified Intumescent Flame Retardant via Surfactant/Polyacrylate Latex on Properties of Intumescent Flame Retardant ABS Composites

A reduced graphene oxide–borate compound-loaded melamine sponge/silicone rubber composite with ultra-high dielectric constant

Significantly enhancing fracture toughness of epoxy composite with promising γ-FeOOH@Fe2O3 hybrid nanoparticles by magnetic field assistance

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Peibang Dai

Interlaminar fracture toughness and conductivity of carbon fiber/epoxy resin composite laminate modified by carbon black-loaded polypropylene non-woven fabric interleaves

Improving in-plane and out-of-plane thermal conductivity of polyimide/boron nitride film with reduced graphene oxide by a moving magnetic field induction

Enhancing thermal conductivity of polyimide composite film by electrostatic self-assembly and two-step synergism of Al2O3 microspheres and BN nanosheets

Thermal Degradation and Combustion Behavior of a Modified Intumescent Flame-retardant ABS Composite

Improvement in dielectric constant of carbon black/epoxy composites with separated structure by surface-modified hollow glass beads with reduced graphene oxide

Effect of Modified Intumescent Flame Retardant via Surfactant/Polyacrylate Latex on Properties of Intumescent Flame Retardant ABS Composites

A reduced graphene oxide–borate compound-loaded melamine sponge/silicone rubber composite with ultra-high dielectric constant

Significantly enhancing fracture toughness of epoxy composite with promising γ-FeOOH@Fe2O3 hybrid nanoparticles by magnetic field assistance

Contact Info

Product

Resources

About

Enhancing thermal conductivity of polyimide composite film by electrostatic self-assembly and two-step synergism of Al₂O₃ microspheres and BN nanosheets