Hydrophobicity, surface charge and DC flashover characteristics of direct-fluorinated RTV silicone rubber
BX Du, ZL Li - IEEE Transactions on Dielectrics and Electrical …, 2015 - ieeexplore.ieee.org
BX Du, ZL Li
IEEE Transactions on Dielectrics and Electrical Insulation, 2015•ieeexplore.ieee.orgSilicone rubber (SiR), as a basic insulating material, is widely used in insulators for HVDC
transmission lines. The prominent characteristics of the SiR coating are the hydrophobicity
and the hydrophobicity recovery, which can suppress the development of leakage currents
and dry-band discharges, and prevent the flashover incidents. Fluorination is a method to
change the chemical component of the surface layer of polymers, which could induce the
corresponding change in hydrophobicity and some electrical properties, thus influencing the …
transmission lines. The prominent characteristics of the SiR coating are the hydrophobicity
and the hydrophobicity recovery, which can suppress the development of leakage currents
and dry-band discharges, and prevent the flashover incidents. Fluorination is a method to
change the chemical component of the surface layer of polymers, which could induce the
corresponding change in hydrophobicity and some electrical properties, thus influencing the …
Silicone rubber (SiR), as a basic insulating material, is widely used in insulators for HVDC transmission lines. The prominent characteristics of the SiR coating are the hydrophobicity and the hydrophobicity recovery, which can suppress the development of leakage currents and dry-band discharges, and prevent the flashover incidents. Fluorination is a method to change the chemical component of the surface layer of polymers, which could induce the corresponding change in hydrophobicity and some electrical properties, thus influencing the dc surface flashover characteristics. Room temperature vulcanized (RTV) SiR samples were fluorinated in a stainless reaction vessel at about 298K (25°C) using a F2/N2 mixture with 12% F2 by volume and 0.05 MPa (500 mbar) for respectively 5, 10, 15 and 20 minutes. The hydrophobicity of samples with different fluorination time was measured by the static contact angle tests after corona aging. The variation of hydrophobicity with the lapse of time was recorded. DC flashover tests in different conditions were carried out between two plane electrodes on top of the material sample. The flashover voltage was found to be associated with the surface hydrophobicity status of samples. Obtained results showed the effects of the fluorination on the surface charge, hydrophobicity performance and dc flashover voltage. It is suggested that the appropriate fluorination can improve surface hydrophobicity and suppress surface charge accumulation, thus raising the dc flashover voltage.
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