Research of cycloaliphatic epoxy resin and silicone rubber composite insulator interface based on four‐electrode system and temperature rise model

Wang, Yunsong; Liu, Yuhao; Mei, Hongwei; Xie, Min; Wang, Liming

doi:10.1049/hve2.12228

Cited by 11 publications

(11 citation statements)

References 24 publications

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“…When a large number of cracks appear in the material, its mechanical properties deteriorate, and the glass transition temperature decreases, ultimately leading to the failure of the material 47 . The water adsorption behavior of epoxy resin at different temperatures conforms to the Langmuir EXT1 isothermal adsorption model, and the water penetration rate is inversely proportional to the thickness 48 . At the same temperature, it follows Fickian diffusion, 49 and elevated temperature increases molecules' mobility while reducing polymer's load‐bearing capacity.…”

Section: Mechanism Of Hydrothermal Agingmentioning

confidence: 61%

“…47 The water adsorption behavior of epoxy resin at different temperatures conforms to the Langmuir EXT1 isothermal adsorption model, and the water penetration rate is inversely proportional to the thickness. 48 At the same temperature, it follows Fickian diffusion, 49 and elevated temperature increases molecules' mobility while reducing polymer's load-bearing capacity. After hydrothermal aging of epoxy resin, many tiny pores appear on the surface and cut the surface.…”

Section: Effect Of Hydrothermal Aging On the Resin Matrixmentioning

confidence: 99%

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A review of the effect of hydrothermal aging on the mechanical properties of 2D fiber‐reinforced resin matrix composites

Li,

Feng,

Zhang

et al. 2024

Polymers for Advanced Techs

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Abstract2D fiber reinforced resin matrix composites (2D FRRMC) are widely applied for aerospace, generator blades, and other high‐end equipment manufacturing fields due to their excellent mechanical properties. However, 2D FRRMC will face a variety of complex environments in the service process, and the long‐term complex environment will significantly impact the physical and mechanical properties of 2D FRRMC. It is necessary to understand and analyze the changes of materials during service. A comprehensive review of the research on the effect of hydrothermal aging on the mechanical properties and re‐ drying of 2D FRRMC in recent years was presented in this article, which contains interlaminar shear properties, compression properties, tensile properties, and aging mechanism, etc. Finally, the current challenges and prospects of 2D FRRMC were discussed. These discussions and proposed strategies will enlighten thoughts and offer ways to apply 2D FRRMC in complex environments better, study 2D FRRMC in complex environments, and study the effects of hydrothermal aging on materials in the future.

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Section: Mechanism Of Hydrothermal Agingmentioning

confidence: 61%

Section: Effect Of Hydrothermal Aging On the Resin Matrixmentioning

confidence: 99%

A review of the effect of hydrothermal aging on the mechanical properties of 2D fiber‐reinforced resin matrix composites

Li,

Feng,

Zhang

et al. 2024

Polymers for Advanced Techs

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“…Several studies have depicted that the interface leakage current can effectively reflect the electrical properties of the sheath-core interface of composite insulators [7,16,23]. This study developed a four-electrode current test platform (Supporting Information S1: Figure A3) to measure the leakage current at the FRP/RPUF interface.…”

Section: Characterisation and Testsmentioning

confidence: 99%

“…Burnham et al [15] conducted case studies on several in-service faults of composite insulators and believed that moisture might contact the sheath-core interface through the composite insulator's end, defect, or sheath diffusion. Wang et al [16] simulated the ageing process of composite insulators in hygrothermal ageing using a boiling experiment and characterised the interface insulation of the sheath-core using a leakage current test. The results show that interface degradation is the main factor responsible for the decrease in insulator insulation performance.…”

Section: Introductionmentioning

confidence: 99%

“…Wang et al. [16] simulated the ageing process of composite insulators in hygrothermal ageing using a boiling experiment and characterised the interface insulation of the sheath‐core using a leakage current test. The results show that interface degradation is the main factor responsible for the decrease in insulator insulation performance.…”

Section: Introductionmentioning

confidence: 99%

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Influence characteristics of water penetration on fibre‐reinforced polymer/rigid polyurethane foam interface of the composite cross‐arm considering natural ageing

et al. 2023

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Fibre‐reinforced polymer (FRP)/rigid polyurethane foam (RPUF) interface is susceptible to moisture intrusion in addition to natural ageing during operation. This study investigated the influence of moisture intrusion on the FRP/RPUF interface under natural ageing using experiments and molecular dynamics (MD) simulations. Water absorption, shear strength, and leakage current tests were used to clarify the changes in the interface performance. The degradation mechanism of moisture intrusion at the interface under natural ageing was revealed by MD simulation and micro‐characterisation. The results show that the natural ageing of interfacial materials will slightly reduce the quality of the interface but will reduce the water resistance of the material and promote the process of water intrusion into the interface. In addition, water mainly invades the interface through RPUF. After water penetration, the interfacial bonding strength and insulation performance significantly decreased. Plasticisation and hydrolysis of interfacial materials are the main reasons for decreased interfacial adhesion. Hydrolysis can cause irreversible damage to the interface, increasing interface defects and water absorption. The vicious cycle of material hydrolysis is the ultimate cause of interfacial debonding. The polar molecules produced by this process and the water absorbed by the interface caused the degradation of the interface insulation performance.

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Silicone rubber thermal aging performance for cables and accessories

2024

J Mater Sci: Mater Electron

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Polymer-based semiconductor materials are mainly used for cable body and cable accessories to ensure long-term stability of power cables. The physical and chemical properties of the semi-conductive shielding layer of the cable will change due to aging. The new silicone material has excellent insulation and mechanical properties and is widely used in cable accessories. In this paper, the insulation materials—silicon rubber is studied. First, the silicone rubber sample is prepared. Then, the mechanical and dielectric properties of the samples before and after aging are tested. The results show that thermal aging has a significant effect on the characteristic parameters of silicone rubber. With the increase of aging time, the hardness and elastic modulus of the silicone rubber sample gradually increased, while the tensile strength and elongation at break significantly decreased with the increase of aging time. With the increase of aging time, the thermal stability of the silicone rubber sample decreases, the cross-linking degree of the system increases, and the organic property decreases. The measurement and analysis of thermal aging characteristics of silicone rubber can help to reduce the failure frequency of cable accessories and improve the safety.

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Research of cycloaliphatic epoxy resin and silicone rubber composite insulator interface based on four‐electrode system and temperature rise model

Cited by 11 publications

References 24 publications

A review of the effect of hydrothermal aging on the mechanical properties of 2D fiber‐reinforced resin matrix composites

A review of the effect of hydrothermal aging on the mechanical properties of 2D fiber‐reinforced resin matrix composites

Influence characteristics of water penetration on fibre‐reinforced polymer/rigid polyurethane foam interface of the composite cross‐arm considering natural ageing

Silicone rubber thermal aging performance for cables and accessories

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