The detailed seismic analysis must be carried out in the design process of the long-span spatial structures.
因此在对地震区大跨度空间结构进行设计分析时,需要进行详细的抗震分析。
The initial deviations of the joint positions are the main initial geometrical imperfections that affect the stability behaviors of the long-span spatial structures.
节点位置偏差是影响大跨度空间结构整体稳定性的一个主要初始几何缺陷,但目前关于实际结构中节点位置缺陷的资料还很少。
The results of this thesis show that complex method is feasible and effective to optimize dampers'parameters in the vibration control of long-span spatial structures.
结果表明:复形法对阻尼器在大跨空间结构减震控制中的参数优化是可行的,且取得了很好的效果。
The computed results reveal that the long-span space structures equipped with viscoelastic damper will have to take the spatial characteristics.
计算结果表明,大跨空间结构采用粘弹性阻尼器时计算地震响应,必须考虑地震动的空间相干特性。
The computed results reveal that the long-span space structures equipped with viscoelastic damper will have to take the spatial characteristics.
计算结果表明,大跨空间结构采用粘弹性阻尼器时计算地震响应,必须考虑地震动的空间相干特性。
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