Improving the flame retardancy of epoxy resin with ZIF-67@GO-PA nanohybrid as filler

Hongni Wang; Zhongjie He; Xiaoqian Li; Yudeng Wang; Dongdong Yao; Yaping Zheng

doi:10.1002/app.52211

Improving the flame retardancy of epoxy resin with ZIF-67@GO-PA nanohybrid as filler

Hongni Wang, Zhongjie He, Xiaoqian Li, Yudeng Wang, Dongdong Yao, Yaping Zheng

School of Chemistry and Chemical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Despite many important industrial applications, epoxy resin (EP) suffers from high flammability. To solve the problem, functionalized graphene oxide with Co-MOF and phytic acid (ZIF-67@GO-PA) was successfully prepared. Subsequently, 2 wt% of ZIF-67@GO-PA nano-hybrids were added into EP. Base on the fire test results, the limiting oxygen index value of EP/ZIF-67@GO-PA enhances to 29.4% and its UL-94 achieves V-0 rating. Moreover, compared with pure EP, the peak heat release rate and total release rate are dramatically decreased by 57.4% and 25.7%, respectively. In addition, the fire growth index was reduced by 64.0%. These superior fire safety properties are due to the catalytic effect of metal oxide and phosphorous compounds produced during the combustion of ZIF-67@GO-PA, and the barrier effect of the graphene oxide. Because the denser char blocks the diffusion of heat during combustion, the fire hazard of EP composites is reduced.

Original language	English
Article number	52211
Journal	Journal of Applied Polymer Science
Volume	139
Issue number	21
DOIs	https://doi.org/10.1002/app.52211
State	Published - 5 Jun 2022

Keywords

flame retardance
glass transition
resins

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10.1002/app.52211

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title = "Improving the flame retardancy of epoxy resin with ZIF-67@GO-PA nanohybrid as filler",

abstract = "Despite many important industrial applications, epoxy resin (EP) suffers from high flammability. To solve the problem, functionalized graphene oxide with Co-MOF and phytic acid (ZIF-67@GO-PA) was successfully prepared. Subsequently, 2 wt% of ZIF-67@GO-PA nano-hybrids were added into EP. Base on the fire test results, the limiting oxygen index value of EP/ZIF-67@GO-PA enhances to 29.4% and its UL-94 achieves V-0 rating. Moreover, compared with pure EP, the peak heat release rate and total release rate are dramatically decreased by 57.4% and 25.7%, respectively. In addition, the fire growth index was reduced by 64.0%. These superior fire safety properties are due to the catalytic effect of metal oxide and phosphorous compounds produced during the combustion of ZIF-67@GO-PA, and the barrier effect of the graphene oxide. Because the denser char blocks the diffusion of heat during combustion, the fire hazard of EP composites is reduced.",

keywords = "flame retardance, glass transition, resins",

author = "Hongni Wang and Zhongjie He and Xiaoqian Li and Yudeng Wang and Dongdong Yao and Yaping Zheng",

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year = "2022",

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doi = "10.1002/app.52211",

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T1 - Improving the flame retardancy of epoxy resin with ZIF-67@GO-PA nanohybrid as filler

AU - Wang, Hongni

AU - He, Zhongjie

AU - Li, Xiaoqian

AU - Wang, Yudeng

AU - Yao, Dongdong

AU - Zheng, Yaping

PY - 2022/6/5

Y1 - 2022/6/5

N2 - Despite many important industrial applications, epoxy resin (EP) suffers from high flammability. To solve the problem, functionalized graphene oxide with Co-MOF and phytic acid (ZIF-67@GO-PA) was successfully prepared. Subsequently, 2 wt% of ZIF-67@GO-PA nano-hybrids were added into EP. Base on the fire test results, the limiting oxygen index value of EP/ZIF-67@GO-PA enhances to 29.4% and its UL-94 achieves V-0 rating. Moreover, compared with pure EP, the peak heat release rate and total release rate are dramatically decreased by 57.4% and 25.7%, respectively. In addition, the fire growth index was reduced by 64.0%. These superior fire safety properties are due to the catalytic effect of metal oxide and phosphorous compounds produced during the combustion of ZIF-67@GO-PA, and the barrier effect of the graphene oxide. Because the denser char blocks the diffusion of heat during combustion, the fire hazard of EP composites is reduced.

AB - Despite many important industrial applications, epoxy resin (EP) suffers from high flammability. To solve the problem, functionalized graphene oxide with Co-MOF and phytic acid (ZIF-67@GO-PA) was successfully prepared. Subsequently, 2 wt% of ZIF-67@GO-PA nano-hybrids were added into EP. Base on the fire test results, the limiting oxygen index value of EP/ZIF-67@GO-PA enhances to 29.4% and its UL-94 achieves V-0 rating. Moreover, compared with pure EP, the peak heat release rate and total release rate are dramatically decreased by 57.4% and 25.7%, respectively. In addition, the fire growth index was reduced by 64.0%. These superior fire safety properties are due to the catalytic effect of metal oxide and phosphorous compounds produced during the combustion of ZIF-67@GO-PA, and the barrier effect of the graphene oxide. Because the denser char blocks the diffusion of heat during combustion, the fire hazard of EP composites is reduced.

KW - flame retardance

KW - glass transition

KW - resins

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U2 - 10.1002/app.52211

DO - 10.1002/app.52211

M3 - 文章

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SN - 0021-8995

VL - 139

JO - Journal of Applied Polymer Science

JF - Journal of Applied Polymer Science

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M1 - 52211

ER -

Improving the flame retardancy of epoxy resin with ZIF-67@GO-PA nanohybrid as filler

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Keywords

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