摘要
为了有效预测输电铁塔结构抗风极限荷载,提出了一种多波屈曲单元来模拟辅助构件支撑的受力构件,按截面边缘屈服准则确定了多波屈曲单元的受压极限应力;对某110kV鼓型直线输电铁塔结构抗风极限荷载进行了数值研究。研究结果表明:所提出的多波屈曲单元可有效考虑辅助构件的支撑作用和受力构件的初弯曲影响,结构建模时可不考虑辅助单元;该方法简单易行,可有效预测大型输电铁塔结构抗风极限荷载。
In order to effectively forecast the wind-resistant limit load of transmission line steel tower, a multi-wave buckling element was proposed to simulate the stressed members subjected to secondary members. According to the criterion of section margin yield, the limit compression stress of the multi-wave buckling elements was determined. The wind-resistant limit load was investigated numerically for a drum-type tangent transmission line steel tower of 110 kV. The study results show that the supporting effect of secondary members and the initial curvature of stressed members can be effectively taken into account using the multi-wave buckling element, and the model of structure can exclude secondary members. The proposed method is simple and practicable, and can effectively estimate the wind-resistant limit load of a large-scale transmission line steel tower.
出处
《建筑科学与工程学报》
CAS
北大核心
2015年第4期105-110,共6页
Journal of Architecture and Civil Engineering
关键词
输电铁塔
抗风极限荷载
边缘屈服准则
多波屈曲单元
初弯曲
transmission line steel tower
wind-resistant limit load
margin yield criterion
multiwave buckling element
initial curvature
