共查询到20条相似文献,搜索用时 118 毫秒
1.
2.
对1/4比例的9层组合砌体房屋模型进行了拟静力试验,得到此类结构的有关抗震性能指标,在此基础上,对试验模型和原型房屋进行了非线性地震反应分析,探讨了此类房屋的动力反应特性,对组合砌体房屋的抗震能力作出了较为客观的评价,并对应采取的抗震措施提出了建议。 相似文献
3.
4.
5.
《世界地震工程》2016,(1)
气体绝缘金属封闭开关设备(GIS)是高压配电装置常见型式,以GIS高压开关设备为研究对象,基于拟合标准反应谱的人工地震动合成理论,生成符合高压电气设备抗震试验要求的人工地震波。同时以实震记录El-centro地震波作为试验配合波形,进行了GIS高压开关设备原型结构的模拟地震振动台试验,研究其抗震性能,寻找设备抗震薄弱点,为高压电气设备的抗震设计提供依据。试验表明:GIS高压电气设备具有较好的抗震性能,在0.4g地震激励下该设备的抗震性能能够满足规范要求,但其套管处加速度综合放大系数及位移值均大于设备主体,为该电气设备的薄弱点,设计时应在套管处采取必要的加强措施提高其抗震能力,防止在地震激励下高压电气产生破坏。 相似文献
6.
以四川石油管理局管辖的输气长输管道的抗震安全评价为例,说明了评价这种大管线的方法以及对种薄弱环节应采取的抗震措施。所提出的方法和措施对其它长输管线的抗震问题亦有借鉴意义。 相似文献
7.
8.
9.
钢筋混凝土结构的抗震设防目标,通俗的说法是“小震不坏,中震可修、大震不倒”,具体来说是“三水准设防目标”。三个水准的设防目标是通过两阶段设计来实现的。钢筋混凝土结构抗震设计的基本步骤:把握好抗震概念设计,采取双指标控制条件,使结构和结构构件既满足抗震承载力要求又满足变形要求,同时保证加强抗震构造措施,使结构有足够的结构延性,最终实现“三水准设防”目标。 相似文献
10.
为加强超限高层建筑结构的抗震性能,最大程度减小地震损失,以某一超限高层建筑为对象,对其结构抗震设计的加强措施和建议进行详细分析。在小震作用下运用pkpm软件MIDAS/Building对建筑结构进行弹性计算对比分析,证明弹性计算的可靠性;借用SATWE对结构在中震或大震作用下不同构件的承载力和截面进行验算;采用midasbuilding软件对该超限高层建筑进行罕遇地震作用下的静力弹塑性分析。根据不同震级下建筑结构线弹性分析结果,对建筑主体结构、结构抗震和地基基础进行加强设计,从中归纳出整体结构的抗震加强措施和建议,说明该超限结构能满足规范的设防要求,是安全可靠的。 相似文献
11.
12.
13.
M. N. French R. L. Bras W. F. Krajewski 《Stochastic Environmental Research and Risk Assessment (SERRA)》1992,6(1):27-45
A procedure for short-term rainfall forecasting in real-time is developed and a study of the role of sampling on forecast ability is conducted. Ground level rainfall fields are forecasted using a stochastic space-time rainfall model in state-space form. Updating of the rainfall field in real-time is accomplished using a distributed parameter Kalman filter to optimally combine measurement information and forecast model estimates. The influence of sampling density on forecast accuracy is evaluated using a series of a simulated rainfall events generated with the same stochastic rainfall model. Sampling was conducted at five different network spatial densities. The results quantify the influence of sampling network density on real-time rainfall field forecasting. Statistical analyses of the rainfall field residuals illustrate improvement in one hour lead time forecasts at higher measurement densities. 相似文献
15.
《地震工程与工程振动(英文版)》2014,(4)
正This journal is established by the Institute of Engineering Mechanics(IEM),China Earthquake Administration,to promote scientific exchange between Chinese and foreign scientists and engineers so as to improve the theory and practice of earthquake hazards mitigation,preparedness,and recovery.To accomplish this purpose,the journal aims to attract a balanced number of papers between Chinese and 相似文献
16.
George W. Housner 《地震工程与工程振动(英文版)》2008,7(2):I0001-I0001
Destructive earthquakes have caused great damage in China and the United States and collapsing buildings havecaused many deaths and injuries. The field of earthquake engineering studies earthquake hazards, the occurrence ofearthquakes of various magnitudes, the nature of the ground shaking during an earthquake, the vibration of structuresduring earthquakes, the strengthening of existing structures and the design of new structures to be earthquake resistant,and finally, how to cope with earthquake damage and restore a city to normal functioning. Such efforts are in progressin both countries, but unfortunately, the language barrier interferes with the free flow of information between China andthe Untied States. It would be mutually beneficial if some means could be developed to promote the exchangeof information across the Pacific Ocean. This new journal has been established for this purpose and its success willbe an important step in promoting earthquake engineering in China and the United States. 相似文献
17.
《国际泥沙研究》2014,(4)
正President:Giampaolo Di Silvio,Italy Vice Presidents:Ulrich C.E.Zanke,Germany Zhao-yin Wang,China The World Association for Sedimentation and Erosion Research(WASER),inaugurated on Oct.19,2004,is an independent non-governmental,non-profit organization.The mission of WASER is to promote international co-operation on the study 相似文献
20.
JianCheng Shi 《中国科学:地球科学(英文版)》2014,57(10):2281-2282
正Global Change includes climate change and other environmental changes caused by the joint interaction among various layers of Earth. From the positive side, global change provides new opportunities to human and other living forms on Earth. In the meantime, it creates tremendous challenges and negative impact. At present, the negative impacts have reached all primary processes of the global ecosystem and every aspect of human society, especially causing degradation of the ecosystem. For instance, intensive deforestation causes decline of biodiversity; global warming causes sea level rise and increases 相似文献