弯曲振动频率对导线微动寿命影响不大。
The frequency of bending vibration has less effect on the fretting life of conductor.
分析表明,断线的冲击荷载将对导线和输电塔均产生较大的动力放大效应,风荷载将加剧断线引起的振动。
The results show that the dynamic impact loads on broken wire cases will magnify response of the conductors and tower. Wind loads will aggravate the vibration caused by the sudden cable rupture.
最后,给出了输电塔体系纵向振动时考虑导线影响的界限,提出了输电塔-导线体系纵向振动的简化抗震计算方法。
At the end, the simplified method of aseismic calculation is presented for the in_plane vibration of the transmission tower_lines system.
受架空输电导线拉力的影响,导线在夹持区易出现应力集中现象,在微风振动作用下,夹持区易产生疲劳断股破坏。
Therefore, the wire in the clamping region is prone to be damaged because of aeolian vibration of overhead transmission lines.
受架空输电导线拉力的影响,导线在夹持区易出现应力集中现象,在微风振动作用下,夹持区易产生疲劳断股破坏。
Therefore, the wire in the clamping region is prone to be damaged because of aeolian vibration of overhead transmission lines.
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