羽饰
发表于 2025-3-27 01:00:47
Surface Charge Dynamic Behaviors of Epoxy Resin Under Combined Effects of DC and Pulse Voltagesoccurs on the spacer, which is a great threat to the application of HVDC GIS and the safety of entire grid. Moreover, the influence on surface charge dynamic behavior under pulse voltage produced by switch overvoltage, accompanying with the DC voltage, is still unclear. In order to research the comp
BOLT
发表于 2025-3-27 05:04:35
Surface Charge Accumulation and Decay Behaviors of Epoxy Resin Under Combined Effects of AC and Pulsoccurs on the spacer, which is a great threat to the application of GIS and the safety of entire grid. Moreover, the influences on surface charge under pulse voltage produced by switch overvoltage, accompanying with the AC voltage, are still unclear. In order to research the comprehensive effect of
Immortal
发表于 2025-3-27 05:25:28
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CORE
发表于 2025-3-27 12:14:35
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细微的差异
发表于 2025-3-27 16:07:36
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demote
发表于 2025-3-27 18:22:29
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可憎
发表于 2025-3-27 23:38:12
Epoxy-Based Insulator with Permittivity-Graded Surface Layer by Magnetron Sputtering for Gas InsulatSFGM) is proposed in this chapter, and the continuously graded high-. layer was fabricated by depositing BaTiO. on the insulator surface. The iterative method was introduced to optimize the thickness distribution of the BaTiO. layer. After four iterations, the layer thickness distribution almost rea
细胞膜
发表于 2025-3-28 04:53:03
Electric Field Relaxation by Surface Functionally Graded Spacer for Compact HVDC Gas Insulated Appar (FGM) have attempted to homogenize the electrical field distribution along the gas–solid interface; however, the complicated fabrication process and huge dielectric loss makes it difficult into industrial application. This chapter proposed a novel concept as that a spacer with functional surface wa
返老还童
发表于 2025-3-28 08:28:17
Novel Insulator with Surface σ-FGM for DC Compact Gas Insulated Pipelinehus reduces flashovers to some extent. However, researches at present are nearly at a standstill for the complicated fabrication techniques and huge bulk conduction losses. In this chapter, a novel cone-type insulator with surface conductivity gradient was proposed based on direct fluorination treat
blithe
发表于 2025-3-28 12:19:16
Epoxy-Based Insulator with Surface Conductivity Gradient Material for HVDC Gas Insulated Pipelinee conductivity as obtained from the field non-uniformity and the leakage current. For fabrication, a temperature control system is employed to form a spatial temperature gradient, thus regulating fluorination from top to bottom of the insulator surface. Flashover tests are reported under DC voltage,