氧化锌纳米流体-纤维素绝热老化研究

IF 3.8 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IET Nanodielectrics Pub Date : 2020-10-28 DOI:10.1049/iet-nde.2020.0018
Asmaa Ibrahim, Loai Nasrat, Ahmed Elnoby, Soliman Eldebeiky
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引用次数: 5

摘要

矿物油基纳米流体的研究趋势表明,大多数研究工作只关注其热学和介电性能,而很少关注其老化性能。在本研究中,ZnO NF与纤维素绝热材料在120℃下加速热老化20天,研究其老化性能,并与mo -纤维素绝热材料进行比较。通过拉伸强度、击穿电压(BDV)和介电损耗因子等指标评价纤维素的劣化率。而油的变质是通过BDV、界面张力、运动粘度、酸度和颜色来评估的。结果表明:在NF (NFIP)中陈化的纤维素,其抗拉强度和BDV分别提高了3%和6.9%;对于陈化油,NF的粘度值和酸度值分别比MO高3%和33.3%,在初始陈化期,NF的BDV优于MO;随着老化,其还原趋势较小。本研究最重要的观察结果是,尽管NF的老化指标增加了,但它可以提高纤维素绝缘材料的抗老化性能。
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Thermal ageing study of ZnO nanofluid–cellulose insulation

Trends in the studies of mineral oil (MO)-based nanofluids (NFs) show that most of the conducted works have focused only on the thermal and dielectric properties but few numbers on the ageing performance. In the present study, ZnO NF, in combination with cellulose insulation experienced accelerated thermal ageing at 120 °C for 20 days to study the ageing performance and it was compared with that of MO–cellulose insulation. The deterioration rate of cellulose was evaluated through tensile strength, breakdown voltage (BDV) and dielectric dissipation factor properties. Whereas oils deterioration was evaluated through BDV, interfacial tension, kinematic viscosity, acidity and colour. The results demonstrate that for cellulose aged in NF (NFIP), the tensile strength and BDV are 3 and 6.9% higher, respectively; than those aged in MO. For aged oils, NF exhibits higher values of the viscosity and acidity by 3 and 33.3%, respectively, than MO. The BDV of NF is superior to that of MO in the initial ageing period, after that; it shows a lesser reduction tendency with ageing. The most important observation from this study is that despite this increment of ageing indicators for NF, it could improve the anti-ageing properties of cellulose insulation.

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来源期刊
IET Nanodielectrics
IET Nanodielectrics Materials Science-Materials Chemistry
CiteScore
5.60
自引率
3.70%
发文量
7
审稿时长
21 weeks
期刊最新文献
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