Release Time:2019-10-13  Hits:

Indexed by: Journal Article

Date of Publication: 2019-07-01

Journal: JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS

Included Journals: CPCI-S、EI、SCIE

Volume: 190

Page Number: 119-133

ISSN: 0167-6105

Key Words: Transmission tower; Wind load; Full-scale test; Collapse simulation; Uncertainty analysis

Abstract: Accurate simulation of overhead transmission towers under extreme wind loads is complicated due to the eccentrically connected angle section members. First, a full-scale 230 kV suspension tower is manufactured, to which eight loading patterns are applied. The tower successfully passes a 100% loading step test under each pattern and is overloaded to collapse under the final pattern. Then, the framework of a uniform imperfection mode method for the transmission tower is developed to simulate the tower's ultimate performance. The calculated critical loading level and member strains agree well with the experimental results, indicating that it is feasible and reliable to simulate the tower response using the developed method. Finally, an uncertainty analysis is introduced to consider the variations in structural parameters. The tower leg, the initial failure position of the full-scale test, has a failure probability of 8.74%, and its probability of entering the plastic state reaches 92.00%. The failure positions predicted by uncertainty analysis reflect those observed experimentally, providing a feasible approach for finding all the potential failure modes.