Electrical Tree Characteristics of Bisphenol A Epoxy Resin/Maleopimaric Anhydride Curing System

Liu, Hechen; Wu, Xuan; Guo, Zhiyong; Dong, Peng; Ge, Qi; Wei, Liwei; Sun, Zhanglin

doi:10.3390/polym14183867

Cited by 4 publications

(4 citation statements)

References 24 publications

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“…The reaction temperature between anhydride curing agent and epoxy resin is high. Compared with amine curing agent, its shrinkage effect during curing is weak, and the heat resistance and insulation performance of the product are more excellent, so it is widely used in the field of electrical insulation [ 35 ].…”

Section: Reaction Mechanism Of Anhydride-cured Epoxy Resinmentioning

confidence: 99%

Curing Regime-Modulating Insulation Performance of Anhydride-Cured Epoxy Resin: A Review

Aung

2023

Molecules

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Anhydride-cured bisphenol-A epoxy resin is widely used in the support, insulation and sealing key components of electrical and electronic equipment due to their excellent comprehensive performance. However, overheating and breakdown faults of epoxy resin-based insulation occur frequently under conditions of large current carrying and multiple voltage waveforms, which seriously threaten the safe and stable operation of the system. The curing regime, including mixture ratio and combination of curing time and temperature, is an important factor to determine the microstructure of epoxy resin, and also directly affects its macro performances. In this paper, the evolution of curing kinetic models of anhydride-cured epoxy resin was introduced to determine the primary curing regime. The influences of curing regime on the insulation performance were reviewed considering various mixture ratios and combinations of curing time and temperature. The curing regime-dependent microstructure was discussed and attributed to the mechanisms of insulation performance.

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Section: Reaction Mechanism Of Anhydride-cured Epoxy Resinmentioning

confidence: 99%

Curing Regime-Modulating Insulation Performance of Anhydride-Cured Epoxy Resin: A Review

Aung

2023

Molecules

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“…The experimental materials used in this experiment included E-51 bisphenol A epoxy resin, aliphatic epoxy modified bisphenol A epoxy resin (2021P/E-51), toughened dimeric acid modified bisphenol A epoxy resin (EPD-172/E-51), curing agent methyl hexahydrophthalic anhydride (MHHPA), model DMP-30 epoxy curing accelerator, etc. [12,13]. Some properties of materials used in the experiment are shown in Table 1.…”

Section: Test Materialsmentioning

confidence: 99%

Study on Blending Modification of Bisphenol A Epoxy

Fu,

Ma,

Chen

et al. 2023

Polymers

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Epoxy-resin-based composites in the field of current electrical materials often work in high temperature, high humidity or salt spray conditions. In order to improve the operation reliability of the composite insulator cross arm in a high temperature, high humidity and high salt spray environment, and analyze the aging mechanism and performance characteristics of resin, in this paper, wet heat aging and salt spray aging experiments were carried out on the blended resin system composed of bisphenol A type epoxy resin (E-51), aliphatic epoxy modified bisphenol A epoxy resin (2021P/E-51) and dimeric acid modified bisphenol A epoxy resin (EPD-172/E-51). Among them, 10 wt% and 20 wt% of 2021P blend resin and 10 wt% of EPD blend resin have superior thermo-mechanical properties. Under humid and hot conditions, the dielectric loss of 10 wt% EPD blend system before and after aging is 39.9% and 49.5% lower than that of pure E51 resin system, respectively. Under the condition of salt spray, the dielectric loss of 20 wt% and 10 wt% EPD blends decreased by 73.1% and 74.6% after aging. The leakage current of 10 wt% 2021P blend resin and 10 wt% EPD blend resin decreased by 7% and 3.8% before aging, respectively. After aging, they decreased by 3.7% and 2.2%, respectively. The bending strength of 2021P blend resin before and after aging reached 29.3 MPa and 26.6 MPa, respectively. The above three blending resin systems exhibit good electrical properties and good mechanical properties, their ageing resistance performance is strong and they are suitable as the matrix resin of compound cross arm mandrel material.

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“…Besides, most epoxy resins and curing agents are derived from the petroleum industry. , Therefore, the use of bio-based raw materials fully or partially substituting petroleum products for developing sustainable materials is conducive to reduce carbon emissions, decrease dependence on petroleum, and achieve sustainable development . Vegetable oil and its derivatives [e.g., cardanol, lignin, and tannic acid (TA)] are widely used to develop sustainable bio-based materials, such as adhesives, coatings, wearable hydrogels, and flame retardants. − Interestingly, TA is a water-soluble, high-molecular-weight polyphenolic compound that is extracted from plenty of plants, such as bush, tea, and legume grass.…”

Section: Introductionmentioning

confidence: 99%

Sustainably Sourced Tannic Acid Enables Fast-Curing High-Strength Epoxy Adhesives with Increased Toughness

Bo,

Guo,

Hou

et al. 2024

Ind. Eng. Chem. Res.

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Electrical Tree Characteristics of Bisphenol A Epoxy Resin/Maleopimaric Anhydride Curing System

Cited by 4 publications

References 24 publications

Curing Regime-Modulating Insulation Performance of Anhydride-Cured Epoxy Resin: A Review

Curing Regime-Modulating Insulation Performance of Anhydride-Cured Epoxy Resin: A Review

Study on Blending Modification of Bisphenol A Epoxy

Sustainably Sourced Tannic Acid Enables Fast-Curing High-Strength Epoxy Adhesives with Increased Toughness

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