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地震发生后,桥梁可能会遭受破坏,路基路面会发生液化,由地震引起的滑坡及建筑物的倒塌会堵塞公路,从这几个因素考虑,对公路系统的震害进行了分析研究,给出了对古交市公路震害进行预测的结果。 相似文献
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地震次生灾害预测和评价的研究 总被引:3,自引:1,他引:3
为了实现对地震次生灾害进行半定量化观测 ,以山西古交市为例 ,通过对次生灾害源分级和对预测区工作区域分级的方法 ,对该市的地震次生灾害进行了预测研究 ,结果表明 ,对次生灾害源分级和对预测区工作区域分区的方法是一种可行的半定量化预测地震次生灾害的方法 相似文献
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根据野外调查和收集到的资料,研究了山西省古交市滑坡的基本特征和形成条件,对古交市滑坡进行了分类,并在本区使用多因素模糊数学综合评判的方法预测了滑坡危险区。 相似文献
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本文从莫高窟抗震防灾的角度出发,阐述了其赋存的地震地质环境以及历史地震对石窟文物的影响,分析研究了影响洞窟及其附属建筑物地震稳定性的各种因素,在此基础上对洞窟及其附属建筑物的震害预测方法进行了初步探讨 相似文献
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讨论了地震造成人员伤亡的相关因素,分析了地震强度、建筑物抗震性能、人口密度、发震时间、地震引起发生灾害及地震预报与地震人员伤亡的相关性。按照确定性方法和概率性方法阐述了国内外地震人员伤亡预测方法,分析了它们的适用条件。并用确定性方法中的建筑物破坏程度与人员伤亡关系法对鲁南地区进行了地震人员伤亡预测。 相似文献
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利用文献[2]推荐的方法得到了不同地震组合情况下的等效地震影响系数,将其与传统的钢筋混凝土框架结构震害预测方法相结合,得到两次地震作用对建筑物所造成的损伤,进而得到了该类建筑物的群体震害预测结果。结果分析表明,接连两次地震对建筑物的累积破坏作用显著。最后以福建省泉州市规划区范围内的钢筋混凝土框架结构群体震害预测为例,证明了该方法具有简便实用的特点。 相似文献
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高层建筑物在地震作用下易出现倒塌状况,严重影响人身安全,因此高层建筑物地震安全防护距离的预测至关重要。设计以基础数据库为核心的高层建筑物地震安全防护距离预测系统,通过高层建筑物基本信息系统采集高层建筑物高度、宽度、结构类型等基本数据信息,并将这些信息存储到震害数据库系统中;地震危害模型分析系统依据数据库系统中存储的这些建筑物基本信息,分析地震危险性后,通过研究地震时高层建筑上部结构水平、底部及顶部先接触地面三种落地状态情况下,计算得到薄弱层和薄弱层上部结构高度的安全防护距离。实验验证在人工地震波作用下,利用该预测系统可有效获取实验小区高层建筑物的安全防护距离界定示意图,且其能够准确分析地震作用下高层建筑物晃动时"飞石"安全距离,以及三种地震波作用下建筑物地震安全防护距离分布规律和主要影响范围,其预测效果好。 相似文献
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本文系统地总结了近几十年来结构地震易损性分析及地震破坏损失预测的发展 ,指出了建筑物地震易损性分析存在的一些重要问题 ,如缺乏震害经验的建筑物地震易损性估计、采用地震动参数进行建筑物地震易损性估计等问题。本文重点研究了理论计算的易损性估计方法 ,给出了对于不同地震动建筑物出现或超越不同状态的概率 ,将多层砖房的理论易损性估计结果同实际震害资料进行了对比 ,并对经正规设计但缺乏震害经验的高层建筑地震易损性进行了估计。另外 ,本文也着重研究了以地震动峰值加速度及反应谱作为地震动输入参数时的结构地震易损性分析方法… 相似文献
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利用多层砌体房屋震害预测专家系统,对山东潍坊地区182栋多层砖房逐栋进行了单体房屋的震害预测,在此基础上,统计分析了该地区多层砖房的地震易损性特征,并进行了初步震害预测研究,给出了该类房屋的易损性矩阵,各破坏等级的损失参数矩阵和对应不同地震烈度的相对损失预测,为进一步开展震害预测和采取地对性的防震减灾对策提供了科学依据。 相似文献
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在统计、收集山西师范大学各类建筑物资料的基础上,对其各类建筑物进行了震害预测和经济损失估计,给出了各类建筑物在不同烈度下的破坏结果和经济损失值,为地震灾害的综合防御提供了科学依据。 相似文献
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《地震工程与工程振动(英文版)》2016,(2)
Open Ground Storey(OGS) framed buildings where the ground storey is kept open without infill walls, mainly to facilitate parking, is increasing commonly in urban areas. However, vulnerability of this type of buildings has been exposed in past earthquakes. OGS buildings are conventionally designed by a bare frame analysis that ignores the stiffness of the infill walls present in the upper storeys, but doing so underestimates the inter-storey drift(ISD) and thereby the force demand in the ground storey columns. Therefore, a multiplication factor(MF) is introduced in various international codes to estimate the design forces(bending moments and shear forces) in the ground storey columns. This study focuses on the seismic performance of typical OGS buildings designed by means of MFs. The probabilistic seismic demand models, fragility curves, reliability and cost indices for various frame models including bare frames and fully infilled frames are developed. It is found that the MF scheme suggested by the Israel code is better than other international codes in terms of reliability and cost. 相似文献
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This paper presents selected indicative results from an extensive parametric investigation that has been performed in order to assess the effects of potential earthquake‐induced poundings on the overall dynamic response of seismically isolated buildings. In particular, a seismically isolated building and its adjacent fixed‐supported buildings are subjected to various earthquake excitations that induce structural impact among the buildings in series. The results indicate that the seismically isolated building may hit against the adjacent buildings at the upper floor levels before the occurrence of any pounding at the isolation level with the surrounding moat wall. The severity of the impact depends on the dynamic properties of the adjacent buildings, in combination with the earthquake characteristics. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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This paper deals with the development of a procedure aimed at defining a seismic risk mitigation strategy for public buildings in terms of prioritization, time required and funds. The procedure is based on a global risk index involving the entire building stock under study thus facilitating an examination of risk variation over time up to its final value. Relationships between the current seismic capacity–demand ratios and the required strengthening costs (cost models) have been developed. Each of the assumed cost models has a different target in terms of capacity–demand ratio to be obtained after strengthening, basically ranging between full retrofit and upgrading. The procedure has been applied to 69 hospital buildings located in Basilicata region for which the vulnerability data was available as a result of a large assessment program set up by the regional government. Priorities have been defined on the basis of seismic capacity, local hazard and number of human beings possibly involved (exposure). The results of different strengthening strategies have been outlined with a special focus on the pros and cons of the upgrading strategy with respect to various retrofit strategies. The procedure may be applied to different categories of public buildings by properly modifying some input parameters and partially redefining criteria for prioritization. 相似文献
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While much effort has been spent on analysis of individual structures, building class seismic damage estimators, of value in disaster planning, code-writing, city planning, national hazards policy formulation, etc., have been little investigated. Based largely on data from Sendai City, Japan in the 12 June, 1978 Miyagiken-oki earthquake (ML = 7.4), estimators of seismic damage for low- and mid-rise buildings in urban Japan have been determined. For low-rise buildings, based on damage to over 60,000 buildings, damage ratios for onset of damage and collapse and for cost of damage are found to correlate best with response spectra at 0.75 s. Using published test data and average building properties, a seismic damage model explains the low-rise building behaviour and permits examination of the effect of structural changes on the estimated damage. For mid-rise buildings, damage states (0: none, 4: total) are determined as a function of maximum storey displacement, based on published natural period determinations (pre- and post-earthquake) for 189 mid-rise buildings in Sendai. The effects of structural changes on expected damage can also be estimated. With these two building class damage estimators, a large part of future seismic damage to urban Japan can be estimated, as well as the effects of various mitigation measures. 相似文献
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Earthquake Damage Scenarios of the Building Stock of Potenza (Southern Italy) Including Site Effects 总被引:3,自引:0,他引:3
Mauro Dolce Angelo Masi Maria Marino Marco Vona 《Bulletin of Earthquake Engineering》2003,1(1):115-140
Damage scenarios relevant to the building stock of the town of Potenza, Southern Italy, are presented. A procedure for the
preparation of scenarios has been purposely set up. In the first step, the inventory of the building stock has been made.
Location and characteristics of buildings have been obtained from a survey carried out after the 1990 Potenza earthquake and
further updated in 1999. In the second step, the absolute vulnerability of the buildings has been evaluated. A hybrid technique
has been used, where typological analyses and expert judgement are combined together. Beyond the classes of vulnerability
A, B and C of the MSK scale, the class D of EMS98 scale, for the less vulnerable buildings, has been considered. The third
step has been the selection of the reference earthquakes by including also local amplification effects. Two events with 50
and 475 years return periods have been chosen as representative, respectively, of a damaging and of a destructive seismic
event expected in Potenza. The sites that may exhibit important amplification effects have been identified using the first
level method of the TC4 Manual. Damage scenarios of dwelling buildings have been prepared in the fourth step and reported
in a GIS. They are relevant to the selected reference earthquakes, taking into account or not site effects. The generally
low vulnerability of buildings results in a limited number of damaged buildings for the lower intensity earthquake, and of
collapsed buildings, for the higher intensity earthquake. The influence of site effects on the damage distribution is significant.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
19.
The evaluation of the seismic damageability of existing buildings is a primary element in the planning for mitigation of earthquake effects. To this purpose, the use of the vulnerability index has been recently proposed and adopted in various surveys in Italy. The index results from grading the status of various structural and non-structural components exposed to damage in a seismic event. The effectiveness of the vulnerability index as a measure of the health status of buildings is discussed on the basis of regional surveys of vulnerability index versus reported damage, carried out in various Italian areas such as Friuli and the city of Gubbio. Also, investigation of the items most effective in describing damageability among those contributing to the index is performed, in view of formulating a reduced survey procedure. A damage versus vulnerability index database collected in these surveys is presented as well. Finally, a vulnerability index based procedure to evaluate the expected damage in a territory is proposed. 相似文献
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Shehata E. Abdel Raheem 《Bulletin of Earthquake Engineering》2014,12(4):1705-1724
Post-earthquake damages investigation in past and recent earthquakes has illustrated that the building structures are vulnerable to severe damage and/or collapse during moderate to strong ground motion. Among the possible structural damages, seismic induced pounding has been commonly observed in several earthquakes. A parametric study on buildings pounding response as well as proper seismic hazard mitigation practice for adjacent buildings is carried out. Three categories of recorded earthquake excitation are used for input excitations. The effect of impact is studied using linear and nonlinear contact force model for different separation distances and compared with nominal model without pounding consideration. The severity of the impact depends on the dynamic characteristics of the adjacent buildings in combination with the earthquake characteristics. Pounding produces acceleration and shear forces/stresses at various story levels that are greater than those obtained from the no pounding case, while the peak drift depends on the input excitation characteristics. Also, increasing gap width is likely to be effective when the separation is sufficiently wide to eliminate contact. Furthermore, it is effective to provide a shock absorber device system for the mitigation of impact effects between adjacent buildings with relatively narrow seismic gaps, where the sudden changes of stiffness during poundings can be smoothed. This prevents, to some extent, the acceleration peaks due to impact. The pounding forces exerted on the adjacent buildings can be satisfactorily reduced. 相似文献