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Electrical insulation characteristics of pepdm blends with aln, al2o3 and rganoclay nanofillers

Electrical insulation characteristics of pepdm blends with aln, al2o3 and rganoclay nanofillers / Noor Syazwani Mansor
Kegagalan penebat akibat penuaan atau pencemaran adalah punca utama gangguan talian. Apabila permukaan penebat tercemar di bawah keadaan basah, lapisan permukaan menjadi konduktif dan menyebabkan kebocoran arus lapisan. Penebat yang terdedah kepada arus bocor akhirnya akan mengalami kerosakan yang teruk. Baru-baru ini, penebat luar diperbuat daripada kaca atau porselin yang digunakan dalam sistem kuasa sejak dahulu lagi semakin diganti dengan penebat polimer. Oleh itu, banyak penyelidikan mengenainya telah dijalankan dalam penebat polimer terutamanya PP / EPDM. Walaupun kajian mengenai PP / EPDM telah dijalankan, setakat ini tidak ada kajian yang dilaporkan pada sifat dielektrik dan hakisan dengan pelbagai pembebanan pengisi campuran PP / EPDM. Oleh itu, dalam projek ini, siasatan terhadap sifat dielektrik dan hakisan untuk menjejaki campuran PP / EPDM telah dijalankan dengan tiga jenis nano pengisi seperti Al2O3, AlN dan organo. Peratusan pengisi muatan bagi setiap spesimen adalah 2%, 4%, 6% dan 8% vol. Kesan Al2O3, ALN dan organo nano pengisi dengan pelbagai muatan pada sifat dielektrik, hakisan untuk pengesanan, kekonduksian terma dan kekalisan campuran PP / EPDM telah diujikaji. Hasilnya menunjukkan bahawa penambahan 2 vol% daripada Al2O3 dan organoclay nano pengisi ke dalam campuran PP / EPDM telah meningkatkan kekuatan dielektrik dengan 4.13% dan 4.33% masing-masing berbanding campuran tanpa nano pengisi. Di sisi lain, AlN telah menurunkan kekuatan dielektrik campuran PP/ EPDM sebanyak 1.79%. 2 vol% daripada nanokomposit Al2O3 yang mempunyai pemalar dielektrik sedikit sama dan kekuatan dielektrik yang lebih tinggi. Keputusan menunjukkan bahawa penambahan nano pengisi bertambah baik bagi hakisan untuk pengesanan. Kehilangan jisim dan hakisan kedalaman PP / EPDM menurun dengan peningkatan dalam pembebanan pengisi. PP / EPDM yang diisi dengan 4 vol% organo dan 6 vol% Al2O3 dan ke atas dianggap mempunyai permukaan hidrofilik. PP / EPDM dengan AlN nano pengisi mengurangkan keadaan kekalisan bahan apabila kepekatan pengisi yang meningkat dan mengekalkan keadaan permukaan kekalisan pada 8% vol. _______________________________________________________________________________________________________ Insulator failure as a result of ageing or contamination flashover is the major cause of line outages. When the surface of an insulator is contaminated under wet condition, the surface layer become conductive and caused leakage current to flow on the layer. The insulator exposed to the leakage current will eventually experience a severe damage. Recently, the outdoor insulation made from glass or porcelain which is used in power system since long time ago have gradually replaced with polymeric insulators. Thus, many research has been conducted in polymeric insulators mainly PP/EPDM. Although the research on the PP/EPDM has been carried out, so far there are no reported studies on dielectric properties and resistance and erosion to tracking with various filler loading of PP/EPDM blends. Thus, in this project, the investigation on dielectric properties and resistance and erosion to tracking of the PP/EPDM blends with three types of nanofillers such as Al2O3, AlN and organoclay was carried out. The percentage of filler loading for each specimen is 2 vol%, 4 vol%, 6 vol% and 8 vol%. The effects of Al2O3, AlN and organoclay nanofillers with various loading on dielectric properties, resistance and erosion to tracking, thermal conductivity and hydrophobicity of PP/EPDM blends were experimentally investigated. The result revealed that the addition of 2 vol% of Al2O3 and organoclay nanofillers into the PP/EPDM blend has increased the dielectric strength by 4.13% and 4.33%, respectively from that without nanofiller. In the other hand, the AlN has decreased the dielectric strength of PP/EPDM blends by 1.79%. The 2 vol% of Al2O3 nanocomposites has slightly same dielectric constant and higher dielectric strength with the unfilled PP/EPDM. The results revealed that addition of nanofillers significantly improved the resistance and erosion to tracking. The mass loss and erosion depth of the PP/EPDM nanocomposites decreased with the increase in filler loading. The PP/EPDM filled with 4 vol% organoclay and 6 vol% Al2O3 odward is considered to have hydrophilic surfaces. The PP/EPDM with AlN nanofiller reduces the hydrophobicity condition of the material when the concentrations of the filler increased and maintained the hydrophobic surface condition at 8 vol%.
Contributor(s):
Noor Syazwani Mansor - Author
Primary Item Type:
Thesis
Identifiers:
Accession Number : 
Language:
English
Subject Keywords:
Insulator; ageing; contamination
First presented to the public:
9/1/2015
Original Publication Date:
10/11/2019
Previously Published By:
Universiti Sains Malaysia
Place Of Publication:
School of Electrical & Electronic Engineering
Citation:
Extents:
Number of Pages - 100
License Grantor / Date Granted:
  / ( View License )
Date Deposited
2019-11-11 15:36:15.956
Submitter:
Mohd Jasnizam Mohd Salleh

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Electrical insulation characteristics of pepdm blends with aln, al2o3 and rganoclay nanofillers1 2019-11-11 15:36:15.956