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房屋建筑的地震易损性是地震损失评估和地震巨灾风险模型的基础。作为房屋建筑的重要组成部分,各类非结构构件的损失在现有的易损性模型中并未得到足够重视。本文以一栋典型钢筋混凝土框架结构教学楼为对象,通过将房屋建筑中的各类构件划分为具有不同地震损伤特性和损失后果的易损性组,考察建筑内的损失分布和非结构损失对房屋建筑地震易损性的影响。分析结果表明:由于许多非结构构件在中小地震作用下即可能发生较严重的破坏,房屋建筑在中小地震下的易损性主要受非结构损失控制;随着地震动强度等级的不断提高,结构损伤渐趋严重,结构损失对整体建筑易损性的影响不断增大;在结构进入震后不可修状态之前,建筑不同楼层的损失分布是评估建筑地震损失时不可忽略的因素。 相似文献
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为了评估不同抗震设防烈度区建筑结构震害风险,即场地地震危险性与结构地震易损性的卷积,本文以典型框架结构为例,对其震害风险进行研究。依据抗震设计规范,分别按照6度、7度和8度设计3个3跨10层框架结构模型,采用动力增量分析方法(Incremental Dynamic Analysis,IDA)对其进行地震易损性分析。同时,基于我国地震烈度概率分布特点,应用MATLAB软件生成符合极值Ⅲ型分布的地震烈度,并将其转化为地震加速度峰值,联合地震易损性结果评估模型震害风险。通过划分震害风险等级,为建筑结构抗震防灾对策的制定提供借鉴。 相似文献
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地震作用下结构的易损性分析是地震灾害损失预测方法的重要组成部分。本文针对多层砌体房屋结构、排架结构和多层钢筋混凝土结构等3种城市典型建筑,首先给出了该类单体建筑的地震结构易损性分析方法,然后对群体建筑的地震易损性分析方法,以及群体建筑的易损性分类方法进行了探讨,为城市典型建筑的地震灾害损失预测和评估提供参考,并为宁波市抗震防灾规划的地震损失预测提供基础。 相似文献
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城市典型建筑的地震损失预测方法Ⅰ: 结构易损性分析 总被引:2,自引:1,他引:1
地震作用下结构的易损性分析是地震灾害损失预测方法的重要组成部分。本文针对多层砌体房屋结构、排架结构和多层钢筋混凝土结构等3种城市典型建筑,首先给出了该类单体建筑的地震结构易损性分析方法,然后对群体建筑的地震易损性分析方法,以及群体建筑的易损性分类方法进行了探讨,为城市典型建筑的地震灾害损失预测和评估提供参考,并为宁波市抗震防灾规划的地震损失预测提供基础。 相似文献
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在对忻州市现有房屋建筑进行调查研究的基础上,对房屋建筑按结构进行了分类,并对各类房屋进行了抗震分析,进而建立了相应的易损性矩阵,最终结果得到以小区为单元遭遇不同强度地震作用的地震损失和人员伤亡,以及50年地震期望损失。 相似文献
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本文利用GIS技术,将全国地震重点监视防御区(重防区)县级行政单元边界分别与中华人民共和国地震动峰值加速度图和中国及邻区地震区带和潜在震源区划分图叠加,对各县分别计算了如下4个地震危险性指标:(1)县境内最高地震动峰值加速度等级;(2)县境内面积比例最大的地震动峰值加速度等级;(3)县境内最高潜在震源区震级上限等级;(4)县境内面积比例最大的潜在震源区震级上限等级.通过分类统计全国重防区县级行政单元的地震危险性分布,得到的结论是:虽然同为重防区但各地的地震危险性相差巨大.据此,建议根据地震危险性的不同在重防区采取如下措施:第一,不论是何种类型的重防区,均应按中国地震动参数区划图对新建工程做抗震设防,对已有建筑做抗震加固;第二,位于高地震危险性的区域,特别是位于具7级以上潜在地震危险的重防区,要加强与防灾有关的应急准备、城市规划、地震监测预报、地震应急响应等专门措施. 相似文献
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西藏当雄6.6级地震与尼木6.5级地震震害特征分析 总被引:1,自引:1,他引:0
2008年10月6日16时30分在西藏拉萨市当雄县(北纬29°48′,东经90°21′)发生了Ms6.6级地震,而在1992年7月30日16时24分在拉萨市尼木县(北纬29°35′,东经90°15′)曾发生过Ms6.5级地震。上述2次地震发生在同一活动构造带上,地震类型相同,震级、震源深度也相差不大,但2次地震造成的灾害损失却相差很大。作者在地震现场调查的基础上,对比分析了这2次地震的人员伤亡和震害情况,探讨了造成地震灾害损失轻重的主要因素。 相似文献
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地震损失预测评估中的易损性分析 总被引:16,自引:1,他引:15
代表着地震易损性中最坏情形的哥斯达黎加土坯房和中国老旧民房有着几乎相同的易损性,而表示地震易损性中最好情形的哥斯达黎加高质量楼房和中国钢筋混泥土结构楼房,由于采用了现代设计和建筑技术,也有着相同的易损性。陈Yong等提出的宏观经济易损性位于常规易损性分类清单中的这两种极端情况之间,因为宏观经济损失是各种建筑设施损失的总和,故宏观经济易损性差于最好的建筑情况,而优于最坏的情况。采用宏观经济易损性的地 相似文献
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A. Martinelli G. Cifani G. Cialone L. Corazza A. Petracca G. Petrucci 《Soil Dynamics and Earthquake Engineering》2008,28(10-11):875
A procedure for assessing the seismic vulnerability of residential buildings is presented along with the results of its application in an Italian town in Abruzzo (Celano Aq). This procedure is part of a methodological proposal which includes specific studies on expected seismic inputs and site effects analyses. The procedure is based on a simplified collection of data, such as typological features and factors concerning the seismic behaviour of buildings, and provides an estimate of seismic vulnerability and an expected damage forecast using fragility curves. The instruments and methods used for the Celano project are an updated and improved version of those applied to previous vulnerability investigations. This paper demonstrates how this procedure can meet the objectives of the integrated methodology proposed. In fact, the information that can be obtained using this procedure—state of vulnerability, risk analyses and GIS presentations of damage scenarios—could be used in urban planning to reduce seismical risk. 相似文献
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Carlo Gavarini 《Soil Dynamics and Earthquake Engineering》2001,21(5):480
In the first part the paper outlines the current conceptions relevant to seismic risk for constructions in urban centres analysing seismic hazard, vulnerability and exposure. In the second part there are some details about the vulnerability assessment of ordinary buildings, and about the differences that arise when monumental or historical buildings are in question. Then the concept of seismic scenario is given (third part), so that the specific question of seismic vulnerability of historical centres may be treated (part four), presenting an appropriate methodology recently proposed by the author. Finally part five presents an introduction to the theme of risk mitigation for historical centres and monuments, a very difficult question, where the two aspects of preservation and seismic safety must be considered together. 相似文献
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Seismic damage evaluation in urban areas using the capacity spectrum method: Application to Barcelona 总被引:8,自引:0,他引:8
Alex H. Barbat Luis G. Pujades Nieves Lantada 《Soil Dynamics and Earthquake Engineering》2008,28(10-11):851
Conceptual aspects related to seismic vulnerability, damage and risk evaluation are discussed first, together with a short review of the most widely used possibilities for seismic evaluation of structures. The capacity spectrum method and the way of obtaining seismic damage scenarios for urban areas starting from capacity and fragility curves are then discussed. The determination of capacity curves for buildings using non-linear structural analysis tools is then explained, together with a simplified expeditious procedure allowing the development of fragility curves. The seismic risk of the buildings of Barcelona, Spain, is analyzed in the paper, based on the application of the capacity spectrum method. The seismic hazard in the area of the city is described by means of the reduced 5% damped elastic response spectrum. The information on the buildings was obtained by collecting, arranging, improving and completing a broad database of the dwellings and current buildings. The buildings existing in Barcelona are mainly of two types: unreinforced masonry structures and reinforced concrete buildings with waffled-slab floors. The ArcView software was used to create a GIS tool for managing the collected information in order to develop seismic risk scenarios. This study shows that the vulnerability of the buildings is significant in Barcelona and, therefore, in spite of the low-to-moderate seismic hazard in the region, the expected seismic risk is considerable. 相似文献
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This paper is a presentation of an European project called RISK-UE, entitled: “An advanced approach to earthquake risk scenarios with applications to different European towns”. It gives the origin, the objectives and the organisation of the project, together with the content of the different workpackages comprising methodological aspects: different features of European town, seismic hazard, urban system exposure, vulnerability of current, historical and monumental buildings, vulnerability of lifelines and essential facilities, seismic risk scenario, with an application to the seven following cities: Barcelona, Bitola, Bucharest, Catania, Nice, Sofia and Thessaloniki. These studies were realized in close relation with the decisionmakers of these cities, in order that they implement Risk Management Plans and Plans of Action to effectively reduce seismic risk. 相似文献
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ASSESSING THE SEISMIC RISK OF CITIES AT FINE-SCALE: A CASE STUDY OF HAIDIAN DISTRICT IN BEIJING,CHINA 
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下载免费PDF全文 In order to provide practical and useful information for the disaster prevention and relief actions, it is necessary to take into account spatial differences and temporal changes of seismic risk in evaluating seismic risk at a proper temporal and spatial scale. From the perspectives of identifying spatial difference of seismic risk within the city and performing disaster relief operations, the evaluation of urban seismic risk is done in this paper at the spatial scale of 500m*500m grids for day time and night time separately. For this purpose, this paper proposes the methods for the assessment of seismic risk, establishing the correspondence relations between the population and land use, and between the floor area of buildings destroyed and casualties at more reasonable spatial and temporal scales. Taking a case study of Haidian District in Beijing using these methods, we estimate the floor area and the value of buildings destroyed and the casualties at daytime and nighttime separately at the 500m grid scale. Results show that:a total of 185, 000m2 of areas is expected to be destroyed annually in Haidian District, and the total loss of the houses is 325 million Yuan(excluding properties within the houses). During the day(night)time, 3, 159(2, 037)victims are expected to be killed and 12, 071(7, 790) injured. Destruction of buildings and loss of houses is spatially concentrated in the downtowns in the south and the industrial parks in the east. The casualties inflicted during the day and night descend from southeast to northwest, i.e. from urban core areas, urban fringes, urban outskirts, to village. Several regions suffer heavy casualties during the day, but nighttime casualties are scattered across different regions. The conclusions in this paper efficiently identify the spatial distribution of areas at the level of high and the very high seismic risk, which provides reliable decision support for identifying priority areas for pre-disaster prevention and mitigation, emergency rescue and the distribution of various relief supplies. 相似文献
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The seismic risk analysis evaluation in the Mediterranean area is one of the main tasks for the preservation of Cultural Heritage and for the sustainable development of Mediterranean cities. The Mediterranean area is characterised by a medium–high level of seismic risk, so that earthquakes are the major cause for the destruction of monuments, residential and industrial buildings. A case history regarding the seismic risk analysis for the city of Catania (Italy) is presented, since the city has been heavy damaged in the past by strong earthquakes such as the 1169 earthquake (XI MCS), the 1542 earthquake (IX MCS), the 1693 earthquake (XI MCS) and the 1818 earthquake (VIII MCS) etc., which caused several thousands of deaths. Fault modelling, attenuation laws, synthetic accelerograms, recorded accelerograms and site effects are considered for the evaluation of the seismic action. Vulnerability of physical environment, related to the presence of cavities and to seismic-induced landslides and liquefaction has been analysed, with special reference to the new modelling of such phenomena and to the application of models to given areas. Soil–structure Interaction has been analysed for some geotechnical works, such as shallow foundation and retaining wall, by means of physical and numerical modelling. The paper deals with the vulnerability of physical environment (landslides, liquefaction, etc.), while the road map continues with the analysis of vulnerability of monuments and buildings, with the aim of the estimation of the seismic resistance required to defend against the seismic action given by the scenario earthquake. For the mitigation of seismic risk, structural improvements of R.C. buildings with different methodology and techniques have been analysed, as well as the guideline for the strengthening of buildings. The work shows that the seismic risk of the city is not a summation of the seismic risk of each building, because the vulnerability of the urban system plays an important role on the seismic risk evaluation of a given city. To this aim the vulnerability of the road infrastructures, lifelines, and urban framework have been also analysed in the project. 相似文献
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Research on the 3—D Seismic Structures in Qinghai—Xizang Plateau 总被引:1,自引:0,他引:1
Based on the recording data from the analogue and broadband digital seismic stations in and around Qinghai-Xizang (Tibet)Platean,the three dimensiomal 3-D) seismic velocity stroctures in Qinghai-Xizang Plateau were obtained by using the regional body wave tomography and surface wave tomography.The results from these two tomography methods have similar characteristics for P-and S-wave velocity structures in crust and upper mantle.They show that there are remarkahle low velocity zones in the upper crust of L hasa block in the southern Qinghai-Xizang Plateau and the lower crust and upper mantle of Qiangtang block in the northern Qinghai-Xizang Plateau.These phenomena may be related to the different steps of collision process in southern and northern Qinghai-Xizang Plateau. 相似文献