Simultaneous toughening and strengthening of diglycidyl ether of bisphenol‐a using epoxy‐ended hyperbranched polymers obtained from thiol‐ene click reaction

Zhang, Junheng; Liu, Chunhai; Cheng, Juan; Miao, Menghe; Zhang, Daohong

doi:10.1002/pen.24767

Cited by 20 publications

(9 citation statements)

References 34 publications

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“…In addition, the HBP could penetrate the molecular chains of the DGEBA matrix due to its small hydrodynamic volume for increasing interactions between molecular chains during curing and reinforced tensile and flexural strength. Similar results can also be observed in other research studies regarding the use of epoxy-ended HBPs [ 130 , 133 , 134 ]. Miao et al [ 135 , 136 ] synthesized an epoxy-ended hyperbranched polyether sulphone as a modifier for DGEBA resin cured with triethylenetetramine, which did not phase-separate.…”

Section: Thermomechanical Characteristicssupporting

confidence: 90%

Enhancement of Epoxy Thermosets with Hyperbranched and Multiarm Star Polymers: A Review

Santiago

Serra

2022

Polymers

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Hyperbranched polymers and multiarm star polymers are a type of dendritic polymers which have attracted substantial interest during the last 30 years because of their unique properties. They can be used to modify epoxy thermosets to increase their toughness and flexibility but without adversely affecting other properties such as reactivity or thermal properties. In addition, the final properties of materials can be tailored by modifying the structure, molecular weight, or type of functional end-groups of the hyperbranched and multiarm star polymers. In this review, we focus on the modification of epoxy-based thermosets with hyperbranched and multiarm star polymers in terms of the effect on the curing process of epoxy formulations, thermal, mechanical, and rheological properties, and their advantages in fire retardancy on the final thermosets.

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Section: Thermomechanical Characteristicssupporting

confidence: 90%

Enhancement of Epoxy Thermosets with Hyperbranched and Multiarm Star Polymers: A Review

Santiago

Serra

2022

Polymers

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“…Polysilsesquioxanes can be further functionalized by attaching a variety of functional organic groups, providing the resultant polymer nanocomposites with excellent properties. 9–12 Using epoxy-functionalized cage-like polyhedral oligomeric silsesquioxane (POSS) to reinforce epoxy thermosets is of interest. 13,14 The rigid silica cages provide strength and the epoxy groups of POSS improve interaction with the matrix and also provide polymer chains with moderate flexibility.…”

Section: Introductionmentioning

confidence: 99%

Bio-based epoxy functionalized MQ silicone resins: from synthesis to toughened epoxy composites with good mechanical properties, thermal resistance and transparency

Zheng

Cai

et al. 2022

Polym. Chem.

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“…The emergence of hyperbranched polymeric FRs has solved this problem, as they not only have the properties of dendritic structures, such as highly branched molecular structures and abundant end structures, 43 but also have the characteristics of easy synthesis, 44 low viscosity and high fluidity, and can be uniformly dispersed in polymeric materials with good compatibility, 44 showing good prospects for FR applications. [45][46][47]…”

Section: Introductionmentioning

confidence: 99%

“…Although the dendritic cyclotriphosphazene derivatives do not have the problem of poor compatibility with polymer materials, their synthesis process is too tedious and complicated, and they must undergo multiple steps to achieve the required functionality. The emergence of hyperbranched polymeric FRs has solved this problem, as they not only have the properties of dendritic structures, such as highly branched molecular structures and abundant end structures, 43 but also have the characteristics of easy synthesis, 44 low viscosity and high fluidity, and can be uniformly dispersed in polymeric materials with good compatibility, 44 showing good prospects for FR applications 45–47 . Chen et al synthesized a P/N/Si/B hyperbranched FR with a rigid‐flexible structure (PTDOB) to improve the fire safety and mechanical properties of epoxy resins, and the results demonstrated that the addition of PTDOB could effectively improve the flame retardancy and mechanical properties of EP 48 .…”

Section: Introductionmentioning

confidence: 99%

Cyclotriphosphazene hyperbranched P/N/Si prepared flame retardants improve mechanical properties and flame retardancy of epoxy resins

Tian

et al. 2022

Polymers for Advanced Techs

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In this study, a cyclotriphosphazene hyperbranched P/N/Si prepared flame retardant (HBPPSi) was synthesized, and the effects of different loadings of HBPPSi on the mechanical properties, thermal stability and flame retardancy of epoxy resin were investigated. The mechanical property studies showed that the addition of HBPPSi could effectively improve the strength and toughness of epoxy resin, in which the strength and toughness of 5% HBPPSi/EP composites were improved by 43% and 59%, respectively. Meanwhile, thermogravimetric analysis and combustion performance test analysis indicated that the loading of HBPPSi could significantly improve the carbon formation rate, flame retardancy, and smoke suppression performance of EP composites. 5% HBPPSi/EP composites achieved a V‐1 grade in the UL‐94 test, and the LOI value increased to 28.3%. Compared with the pure EP material, the maximum heat release rate (PHRR) and total smoke release (TSP) of the 5% HBPPSi/EP composite were reduced by 47% and 32%, respectively. In addition, the release of toxic smoke CO was also significantly reduced. More importantly, the mode of action of the effect of HBPPSi on the mechanical properties, flame retardant properties, and smoke suppression properties of EP materials was investigated.

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Simultaneous toughening and strengthening of diglycidyl ether of bisphenol‐a using epoxy‐ended hyperbranched polymers obtained from thiol‐ene click reaction

Cited by 20 publications

References 34 publications

Enhancement of Epoxy Thermosets with Hyperbranched and Multiarm Star Polymers: A Review

Enhancement of Epoxy Thermosets with Hyperbranched and Multiarm Star Polymers: A Review

Bio-based epoxy functionalized MQ silicone resins: from synthesis to toughened epoxy composites with good mechanical properties, thermal resistance and transparency

Cyclotriphosphazene hyperbranched P/N/Si prepared flame retardants improve mechanical properties and flame retardancy of epoxy resins

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