ABSTRACT
In order to enhance the anti-corrosion ability and wind resistance of electric transmission tower lines, and greatly reduce the accidents of broken transmission towers, oblique transmission towers and inverted transmission towers, theoretical analysis, numerical simulation analysis, experimental research and other methods are used to analyze the effect of light-duty anticorrosive partially prestressed reactive powder concrete (RPC) transmission towers in the power grid. Application for research. The lightweight anticorrosive part of the prestressed RPC transmission tower adopts a standardized design, which has the advantages of light weight, high strength, durability and strong corrosion resistance. It is suitable for distribution line projects of 10kV and below, and can provide effective solutions for the safe operation of distribution network lines. It can reduce the large amount of manpower and material resources spent in post-disaster reconstruction, greatly improve the operational safety and power supply reliability of the power grid, reduce power outage losses, and reflect major economic and social benefits.
