| Title |
Cyclic Loading Test of Transmission Towers with Friction-type Reinforcing Members |
| Authors |
Park Ji-Hun ; Moon Byoung-Wook ; Min Kyung-Won |
| Keywords |
Wind Response ; Wind Load ; Transmission Tower ; Friction Damper |
| Abstract |
A friction-type reinforcing member (FRM) is proposed for the purpose of upgrading wind resistant performance of a transmission tower and verified through cyclic loading tests. First, suitable install scheme of the FRM is investigated through numerical analysis. Main-post-reinforcing type and X-brace type installation schemes are examined, and numerical analysis shows that the former is more effective due to the vertical cantilever type behavior of the transmission tower. Based on this result, two types of the FRM’s, dissipating energy in slotted bolted connections, are proposed. The one utilizes the relative displacement between the FRM and the main post, and the other utilizes that between the separated angles consisting of the FRM as a slip deformation of the slotted bolted connection. Proposed FRM’s are installed on each main post of the 1/2 scale substructure models of an actual transmission tower body. From cyclic loading tests, the latter type of the proposed FRM’s dissipates energy more effectively and its slip load is controlled by applied torque well, and shares considerable amount of the axial force in the main post. |