介绍了用耗能减震的方法对铁路钢板梁桥进行抗震控制。
The anti-seismic of railway steel plant-beam bridge is controlled by using the method of consuming energy to weaken earthquake.
直接套用传统的耗能减震设计分析方法是不切合实际的。
However, the traditional design and analysis methods based on energy dissipation are not suitable for this type of structures now.
采用耗能减震结构是一种经济有效的提高结构抗震能力的方法。
It is an economical and effective method to enhance the aseismatic capability of buildings by using passive energy dissipation structures.
采用耗能减震结构是一种经济有效的提高结构抗震能力的方法。
Seismic Analysis on Frame-Tube Structure with Seismic Energy Dissipation Story;
对设置铅阻尼器的火电厂悬吊煤斗结构的耗能减震性能进行了研究。
It is studied that the seismic properties of suspending coal hopper structure with lead dampers in thermal power plant.
实验证明这种填充墙具有较稳定的滞回环,可以产生耗能减震的效果。
Experiments show that the filled wall has stable hysteretic curves, and effect of energy dissipation and vibration reduction.
粘弹性阻尼器(VED)是减振被动控制中一种十分有效的耗能减震装置。
VED is a kind of efficient passive control device for suppressing vibration and dissipating energy.
粘弹性阻尼器(VED)是减振被动控制中一种十分有效的耗能减震装置。
VED is a kind of efficient passive control device for suppressing vibration and dissipating energy. By optimizing location, VED could bring better effects of suppressing vibration.
结合我国抗震设计规范,提出被动耗能减震结构基于能力谱法的抗震设计方法。
A seismic design procedure for energy dissipation systems is proposed by using the capacity spectrum method in combination with Chinese seismic design code.
铅剪切阻尼器是一种耗能性能优越、构造简单而又十分经济的耗能减震控制装置。
The lead shear damper is a cheap device of energy dissipation that has superiority performance and simple structure.
利用粘滞阻尼器对工程结构进行减震是耗能减震方法中最有效的新型抗震技术之一。
Energy dissipation is a new kind of antiseismic technology. Structural shock absorption by viscous dampers is one of the most effective energy dissipation methods.
利用粘滞阻尼器对工程结构进行减震是耗能减震方法中最有效的新型抗震技术之一。
Structural shock absorption by viscous dampers is one of the most effective energy dissipation methods.
采用金属耗能器进行结构抗震加固是一种较经济、简单、又可靠的耗能减震加固方法。
Structural seismic strengthening adopting with metallic dampers has been proven to be a cost-effective, simple and reliable method.
该节点具有良好的延性性能,能起到一定的耗能减震作用,可用于抗震建筑结构中。
The node has good ductility performance, can play a role in passive energy dissipation, and can be used in seismic building structures.
该节点具有良好的延性性能,能起到一定的耗能减震作用,可用于抗震建筑结构中。
The node has good ductility performance, can play a role in passive energy dissipation, and can be used in seismic building structures.
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