Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity
Insulation failure of composite epoxy insulation materials in distribution switchgear under the stress of heat and humidity is one of the leading causes of damage to switchgear components. This work prepared composite epoxy insulation materials by casting and curing a diglycidyl ether of bisphenol A...
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sg-ntu-dr.10356-1710732023-10-13T15:40:51Z Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity Ma, Jielin Yang, Yan Wang, Qi Deng, Yuheng Yap, Malvern Chern, Wen Kwang Oh, Joo Tien Chen, Zhong School of Electrical and Electronic Engineering School of Materials Science and Engineering SP Group–NTU Joint Laboratory Engineering::Materials Engineering::Electrical and electronic engineering Epoxy Composite Material Properties Insulation failure of composite epoxy insulation materials in distribution switchgear under the stress of heat and humidity is one of the leading causes of damage to switchgear components. This work prepared composite epoxy insulation materials by casting and curing a diglycidyl ether of bisphenol A (DGEBA)/anhydride/wollastonite composite system, and performed material accelerated aging experiments under three conditions: 75 °C and 95% relative humidity (RH), 85 °C and 95% RH, and 95 °C and 95% RH. Material, mechanical, thermal, chemical, and microstructural properties were investigated. Based on the IEC 60216-2 standard and our data, tensile strength and ester carbonyl bond (C=O) absorption in infrared spectra were chosen as failure criteria. At the failure points, the ester C=O absorption decreased to ~28% and the tensile strength decreased to 50%. Accordingly, a lifetime prediction model was established to estimate material lifetime at 25 °C and 95% RH to be 33.16 years. The material degradation mechanism was attributed to the hydrolysis of epoxy resin ester bonds into organic acids and alcohols under heat and humidity stresses. Organic acids reacted with calcium ions (Ca2+) of fillers to form carboxylate, which destroyed the resin-filler interface, resulting in a hydrophilic surface and a decrease in mechanical strength. Energy Market Authority (EMA) Nanyang Technological University National Research Foundation (NRF) Published version This research was funded by the SP Group, the National Research Foundation, Singapore, the Energy Market Authority, and Nanyang Technological University under the Energy Program (EMA-EP010-SNJL-002). 2023-10-11T05:37:24Z 2023-10-11T05:37:24Z 2023 Journal Article Ma, J., Yang, Y., Wang, Q., Deng, Y., Yap, M., Chern, W. K., Oh, J. T. & Chen, Z. (2023). Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity. Polymers, 15(12), 2666-. https://dx.doi.org/10.3390/polym15122666 2073-4360 https://hdl.handle.net/10356/171073 10.3390/polym15122666 37376312 2-s2.0-85163742885 12 15 2666 en EMA-EP010-SNJL-002 Polymers © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/). application/pdf |
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Engineering::Materials Engineering::Electrical and electronic engineering Epoxy Composite Material Properties |
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Engineering::Materials Engineering::Electrical and electronic engineering Epoxy Composite Material Properties Ma, Jielin Yang, Yan Wang, Qi Deng, Yuheng Yap, Malvern Chern, Wen Kwang Oh, Joo Tien Chen, Zhong Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| description |
Insulation failure of composite epoxy insulation materials in distribution switchgear under the stress of heat and humidity is one of the leading causes of damage to switchgear components. This work prepared composite epoxy insulation materials by casting and curing a diglycidyl ether of bisphenol A (DGEBA)/anhydride/wollastonite composite system, and performed material accelerated aging experiments under three conditions: 75 °C and 95% relative humidity (RH), 85 °C and 95% RH, and 95 °C and 95% RH. Material, mechanical, thermal, chemical, and microstructural properties were investigated. Based on the IEC 60216-2 standard and our data, tensile strength and ester carbonyl bond (C=O) absorption in infrared spectra were chosen as failure criteria. At the failure points, the ester C=O absorption decreased to ~28% and the tensile strength decreased to 50%. Accordingly, a lifetime prediction model was established to estimate material lifetime at 25 °C and 95% RH to be 33.16 years. The material degradation mechanism was attributed to the hydrolysis of epoxy resin ester bonds into organic acids and alcohols under heat and humidity stresses. Organic acids reacted with calcium ions (Ca2+) of fillers to form carboxylate, which destroyed the resin-filler interface, resulting in a hydrophilic surface and a decrease in mechanical strength. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Ma, Jielin Yang, Yan Wang, Qi Deng, Yuheng Yap, Malvern Chern, Wen Kwang Oh, Joo Tien Chen, Zhong |
| format |
Article |
| author |
Ma, Jielin Yang, Yan Wang, Qi Deng, Yuheng Yap, Malvern Chern, Wen Kwang Oh, Joo Tien Chen, Zhong |
| author_sort |
Ma, Jielin |
| title |
Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| title_short |
Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| title_full |
Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| title_fullStr |
Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| title_full_unstemmed |
Degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| title_sort |
degradation and lifetime prediction of epoxy composite insulation materials under high relative humidity |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171073 |
| _version_ |
1781793797359796224 |