Novel nanocomposites based on epoxy resin and modified magnesium hydroxide: Focus on flame retardancy and mechanical properties

Lv, Xinyao; Fan, Hui; Zeng, Wei; Yang, Zhiwang; Wang, Yun; Lei, Ziqiang

doi:10.1002/pat.4734

Cited by 28 publications

(9 citation statements)

References 38 publications

(43 reference statements)

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“…Many halogen‐containing flame retardants, although showing high efficiency, have been forbidden due to the environmental hazards stemming from the release of corrosive toxic volatiles during combustion 6,7 . Nowadays, phosphorus‐, 8–11 nitrogen‐, 12,13 and silicon‐containing 14 flame retardants have attracted widespread attention because of their high‐flame retardant efficiency and low toxicity. Especially, the compounds containing multiple flame‐retardant elements have become the research hotspot because of the synergistic effect of different elements on the gas and/or condensed phase 15–17 …”

Section: Introductionmentioning

confidence: 99%

A phosphorus/sulfur‐containing compound toward simultaneously endowing epoxy resin with good flame retardancy and high transparency

Ding

Luo

Wang

2022

J of Applied Polymer Sci

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A phosphorus/sulfur‐containing compound (sulfonylbis(3,1‐phenylene) bis(diphenyl‐phosphinate), named as SBPDPP) is designed and synthesized by nucleophilic substitution reaction between diphenylphosphinyl chloride and 4,4‐dihydroxydiphenylsulfone, and its chemical structure is verified by Fourier transform infrared, 1H and 31P nuclear magnetic resonance. The incorporation of SBPDPP accelerates the curing process but decreases the glass transition temperature and the crosslinking density of the epoxy resin (EP). The cured EP with 6 wt% SBPDPP passes UL‐94 V0 rating and gives limited oxygen index value of 38.8%, meanwhile maintaining 90% of the transmittance of the pure EP. Its peak heat release rate, total heat release, total smoke production, and total smoke rate are reduced by 40.8%, 42.0%, 26.3%, and 21.9% in comparison with the pure EP, demonstrating that the SBPDPP improved simultaneously the fire safety and smoke suppression. The comprehensive analysis of the char residues after cone calorimeter test and the volatile gasses during the pyrolysis demonstrates that the SBPDPP exerted dual flame retardant effect in the gas and condensed phase. The cured FREPs have promising applications that requiring flame retardancy and maintaining transparency.

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Section: Introductionmentioning

confidence: 99%

A phosphorus/sulfur‐containing compound toward simultaneously endowing epoxy resin with good flame retardancy and high transparency

Ding

Luo

Wang

2022

J of Applied Polymer Sci

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“…However, although halogen-containing compounds can improve the flame retardancy, they have the problems of environmental pollution and strong toxicity, which seriously threaten human health and property safety. Therefore, it is urgently needed to develop functional green flame retardants to replace halogenated flame retardants [5,6]. Magnesium hydroxide (MH) is an excellent halogen-free environmentally-friendly flame retardant and smoke suppressant filler, which is widely used in the field of environmentally-friendly flame-retardant polymers [7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Effect of modified nano/Mg(OH)₂ on the flame retardancy and mechanical properties of NBR based on molecular simulation

yu¹,

wang²,

liu³

et al. 2022

Modelling Simul. Mater. Sci. Eng.

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In order to explore the effect of nano Mg(OH)2(MH) on the flame retardancy and mechanical properties of nitrile-butadiene rubber (NBR) composite, molecular simulation was employed to examine the following properties of nano-MH/NBR composite, including thermal decomposition temperature, agglomeration and dispersion mechanism, shear behavior, stretcher strain and gyration radius of gyration. Discussion was performed on the microscopic mechanism of the flame retardancy and mechanical properties of nano MH/NBR composite. The simulation results indicated that the introduction of nano MH increased the thermal decomposition temperature of the composites by up to 28.92%, and that compared with the unmodified nano-MH/NBR composite, the thermal decomposition temperature of the conventionally-modified composite was increased by 19.22%. Besides, the crystal morphology, polarity and dispersion of nano-MH could be well optimized by hydrothermal modification. The Young's modulus of the composite was increased by 35.65% by adding nano-MH into pure NBR. The Young's modulus of the conventionally -modified nano-MH(101)/NBR and the hydrothermally-modified nano-MH(001)/NBR composite was 20.93 GPa and 21.43 GPa, respectively, an increase of 35.82% and 39.06% compared with unmodified nano-MH/NBR composite, respectively. To conclude, adding nano-MH could improve the flame retardancy and mechanical properties of NBR composite, and modified nano-MH performed better than unmodified nano-MH in NBR composite.

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“…At present, with the development trend of social environment friendliness, wide attention has been paid to bio-based flame retardants. Some natural materials have been used as flame retardants, such as deoxyribonucleic acid [ 22 ], gluten [ 23 , 24 , 25 ], starch [ 26 ], tea saponin [ 27 , 28 , 29 ], chitosan [ 30 ], and phytic acid (Pa) [ 31 , 32 , 33 ]. Pa consists of six phosphate groups, which is beneficial to the electrochemical stripping and makes the system have high flame retardancy.…”

Section: Introductionmentioning

confidence: 99%

Synergistic Flame Retardant Effect of Barium Phytate and Intumescent Flame Retardant for Epoxy Resin

et al. 2021

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Recently, widespread concern has been aroused on environmentally friendly materials. In this article, barium phytate (Pa-Ba) was prepared by the reaction of phytic acid with barium carbonate in deionized water, which was used to blend with intumescent flame retardant (IFR) as a flame retardant and was added to epoxy resin (EP). Afterward, the chemical structure and thermal stability of Pa-Ba were characterized by Fourier transform infrared (FTIR) spectroscopy and thermogravimetric analysis (TGA), respectively. On this basis, the flammability and flame retardancy of EP composites were researched. It is shown that EP/14IFR/2Ba composite has the highest limiting oxygen index (LOI) value of 30.7%. Moreover, the peak heat release rate (PHRR) of EP/14IFR/2Ba decreases by 69.13% compared with pure EP. SEM and Raman spectra reveal the carbonization quality of EP/14IFR/2Ba is better than that of other composites. The results prove that Pa-Ba can cooperate with IFR to improve the flame retardancy of EP, reducing the addition amount of IFR in EP, thus expanding the application range of EP. In conclusion, adding Pa-Ba to IFR is a more environmentally friendly and efficient method compared with others.

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Novel nanocomposites based on epoxy resin and modified magnesium hydroxide: Focus on flame retardancy and mechanical properties

Cited by 28 publications

References 38 publications

A phosphorus/sulfur‐containing compound toward simultaneously endowing epoxy resin with good flame retardancy and high transparency

A phosphorus/sulfur‐containing compound toward simultaneously endowing epoxy resin with good flame retardancy and high transparency

Effect of modified nano/Mg(OH)₂ on the flame retardancy and mechanical properties of NBR based on molecular simulation

Synergistic Flame Retardant Effect of Barium Phytate and Intumescent Flame Retardant for Epoxy Resin

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Novel nanocomposites based on epoxy resin and modified magnesium hydroxide: Focus on flame retardancy and mechanical properties

Cited by 28 publications

References 38 publications

A phosphorus/sulfur‐containing compound toward simultaneously endowing epoxy resin with good flame retardancy and high transparency

A phosphorus/sulfur‐containing compound toward simultaneously endowing epoxy resin with good flame retardancy and high transparency

Effect of modified nano/Mg(OH)2 on the flame retardancy and mechanical properties of NBR based on molecular simulation

Synergistic Flame Retardant Effect of Barium Phytate and Intumescent Flame Retardant for Epoxy Resin

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Effect of modified nano/Mg(OH)₂ on the flame retardancy and mechanical properties of NBR based on molecular simulation