Radar is a radio device that uses radio waves to determine the location of objects. To avoid interference from surrounding buildings, radar towers are typically as tall as 100 meters.
Approximately m, due to the performance requirements of the radar, the fundamental frequency of the radar tower must not be less than 1.0 Hz. Through extensive calculations and analysis, some significant improvements
The regularity of the basic frequency of high radar towers. Radar towers are extensively used in modern applications, whether at sea or on land, in traffic, and for navigation.
Position, speed measurement, search, etc. Additionally, the seismic response of the radar tower was analyzed using the response spectrum method, time history analysis, and random vibration method. Calculations
The results indicate that the radar tower meets the seismic code requirements for inter-story displacement.
Tower Structure:
The entire steel tower is mainly composed of three major parts: the tower head, the tower body, and the tower legs. For guyed towers, an additional guy part is included. The tower head extends upwards from the tower legs to the tower frame section.
Sharp changes (represented by lines) above this section are the tower head. If there is no sharp change in cross-section, the part above the lower chord of the lower crossarm is the tower head. Tower leg
Above the base, the section of the tower frame called the tower leg, the section between the tower leg and the tower frame is called the tower body.
Technical Specifications:
1. Basic Wind Pressure: w0 = 0.4 - 0.8 KN/m²
2. Seismic fortification intensity: 8 degrees and less
3. Foundation bearing capacity: 100 and 200 KN/m²
4. Ice Thickness: ≤10mm
5. Verticality: ≤1/1000
6. Corrosion Treatment: Hot-Dip Galvanizing
Technical Specifications:
1. Code for Design of Lightning Protection for Buildings (GB50057-94)
2. Tall Structure Design Code (GBJ135-90)
3. Steel Structure Design Code (GB50017-2003)
4. Steel Mast Structural Construction and Acceptance Procedures (CECS 80:2006)
