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1.
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
2.
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
3.
The objectives of the Istanbul Seismic Risk Mitigation and Emergency Preparedness Project are to improve Istanbul’s preparedness
for a potential earthquake. Within this framework “Risk Assessment of Cultural Heritage Buildings” was designed to address
the vulnerability of cultural assets, specifically buildings with global cultural heritage value. One of the components of
the project was the vulnerability and risk assessment of 170 historical buildings. After a discussion of the choice of the
most appropriate earthquake scenario, the methodology used for assessing the effects of local site conditions on the seismic
performance of selected cultural heritage buildings is presented. The purpose is to estimate the earthquake characteristics
on the ground surface based on the earthquake characteristics on the engineering bedrock outcrop obtained from the probabilistic
and deterministic hazard studies. The site specific elastic design spectra for each site are then further manipulated to obtain
site specific non linear displacement spectra, so that these can be directly compared with capacity curves for the buildings
obtained by using plasticity based limit state analysis. The procedure for obtaining the capacity curves is described and
the choice of the most appropriate level of ductility and the equivalent reduction coefficient are discussed. A procedure
to evaluate performance points and to define safety factors based on lateral acceleration, drift or expected damage level,
is presented. The process of arriving at a risk evaluation and hence recommendation for strengthening or otherwise, is finally
highlighted with respect to two comparable case studies. 相似文献
4.
Afef Khalfet Mansour Najla Bouden Romdhane Noureddine Boukadi 《Bulletin of Earthquake Engineering》2013,11(5):1563-1583
Tunis is a densely populated city. Its building stock was constructed without any seismic design code and mostly over soft soils. These facts make a seismic risk assessment of the city necessary. To prepare a large-scale vulnerability assessment of the buildings of Tunis, the following methodology was employed: (1) a collection of data based on a rapid visual screening procedure was gathered using an inventory form. These data were composed of files and information placed at the disposal of the authors by the municipality of Tunis. The data also contained information gathered by surveys carried out by engineering departments and information gathered from building owners. (2) A classification of building typologies was carried out considering construction material, structural system, age, height, function and state of maintenance. A measure of seismic vulnerability was assigned to each typology considering the first two parameters. (3) A large-scale vulnerability assessment using two methods was conducted for buildings for which few data were available. Vulnerability methods inspired by the EMS98 concepts and the Italian GNDT concepts were modified and applied to pilot-scale buildings located in the downtown zone (Habib Bourguiba Avenue) and in the old zone (Medina). The data analysis, through the application of the two methods, suggests that the vulnerability of buildings surveyed in Tunis is significant and risk mitigation efforts are necessary. 相似文献
5.
The main purpose of this study is to obtain the damage scenario for residential buildings in the occurrence of a destructive earthquake (M = 7+) in the city area of Catania, Eastern Sicily, and to illustrate the comparative performance of two alternative methods used for this purpose. The methods are representative of two different approaches to estimating the seismic vulnerability of structures, i.e., an empirical approach based on statistical score assignments (widely used in Italy and other countries) and a more recent, mechanical approach that uses displacement limit states associated with well-defined thresholds of structural damage. A special concern for seismic vulnerability in Catania is caused by the fact that earthquake design norms were enforced in its municipal area only since 1981. We emphasise some typical problems encountered in earthquake scenario work, such as the difficulty of assembling a reliable building inventory, and the uncertainties inherent in the vulnerability assessments through different probabilistic assumptions. Different criteria for the representation of damage are applied and discussed. It is shown that the main scenarios obtained by the two methods are in reasonable agreement, provided a suitable percentile level for damage is chosen in the statistical score assignment approach. 相似文献
6.
历次地震震害表明,底框砌体结构在遭遇大地震时破坏严重。本文比较了《GBJ11-89建筑抗震设计规范》和《GB50011-2001建筑抗震设计规范》中关于该类结构的抗震设计要求。参考某地一个实际底框砌体结构建筑设计资料,分别按上述两版本规范设计了2个具有代表性的底框砌体结构。采用层间剪切模型基于IDA方法对结构进行了地震易损性分析,对比分析结果表明:按两版本规范设计的底框砌体结构的破坏均出现在过渡层;在设防地震作用下,按《89规范》设计的结构达到中等破坏的概率最大,使用功能受到影响,按《01规范》设计的结构达到轻微破坏状态的概率最大,使用功能基本无影响;在罕遇地震作用下,按《01规范》设计的结构发生严重破坏和毁坏的概率比按《89规范》设计的结构明显降低,抗震能力明显提高。本文提供的结果可丰富底框砌体结构地震易损性数据,为区域地震风险评估、震害预测等研究提供更加精细的易损性模型。 相似文献
7.
This study focuses on the evaluation of seismic safety of unreinforced masonry buildings in Turkey by using fragility curves generated for two behavior modes of load bearing walls: in-plane and out-of-plane. During generation of fragility curves, a force-based approach has been used. There exist two limit states in terms of base shear strength for in-plane behavior mode and flexural strength for out-of-plane behavior mode. To assess the seismic vulnerability of unreinforced masonry buildings in Turkey, fragility curves generated for in-plane behavior were verified by the observed damage during the 1995 Dinar (Turkey) earthquake and fragility curves generated for out-of-plane behavior were verified by the observed damage during the 2010 Elaz?? (Turkey) earthquake. The verification results reveal that the proposed fragility-based procedure can provide an alternative for the seismic safety evaluation of unreinforced masonry buildings in Turkey. Using this procedure, it becomes possible to investigate a large population of masonry buildings located in regions of high seismic risk in a short period of time. The obtained results are valuable in the sense that they can be used as a database during the development of strategies for pre-earthquake planning and risk mitigation for earthquake prone regions of Turkey. 相似文献
8.
针对目前仅以城市单体为对象研究城市地震灾害脆弱性,而忽视城市内部不同区域间存在特征差异的问题,选择威海市区作为研究对象,将研究范围细化至22个街道(镇),建立城市小区域地震灾害脆弱性评价模型。从人口、经济、建筑物和生命线系统4个方面选取17个指标构建城市地震脆弱性评价指标体系,应用主客观结合的三角模糊熵法和改进TOPSIS模型,计算出研究区域的相对贴近程度并进行排序,将威海市区划分为4个不同脆弱性等级。结果表明:改进TOPSIS模型能够从整体上对城市地震灾害脆弱性进行评级分区,为城市内部有针对性的制定防震减灾策略提供一个全新的思路。 相似文献
9.
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
10.
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
11.
Performance-based methodology for assessing seismic vulnerability and capacity of buildings 总被引:1,自引:0,他引:1
This paper presents a performance-based methodology for the assessment of seismic vulnerability and capacity of buildings. The vulnerability assessment methodology is based on the HAZUS methodology and the improved capacity- demand-diagram method. The spectral displacement (Sd) of performance points on a capacity curve is used to estimate the damage level of a building. The relationship between Sd and peak ground acceleration (PGA) is established, and then a new vulnerability function is expressed in terms of PGA. Furthermore, the expected value of the seismic capacity index (SCev) is provided to estimate the seismic capacity of buildings based on the probability distribution of damage levels and the corresponding seismic capacity index. The results indicate that the proposed vulnerability methodology is able to assess seismic damage of a large number of building stock directly and quickly following an earthquake. The SCev provides an effective index to measure the seismic capacity of buildings and illustrate the relationship between the seismic capacity of buildings and seismic action. The estimated result is compared with damage surveys of the cities of Dujiangyan and Jiangyou in the M8.0 Wenchuan earthquake, revealing that the methodology is acceptable for seismic risk assessment and decision making. The primary reasons for discrepancies between the estimated results and the damage surveys are discussed. 相似文献
12.
This paper presents a reassessment of the seismic intensity estimated for the 2011 Lorca (southeastern Spain) earthquake based on detailed vulnerability data and its comparison with the observed damage. Building and urban data are gathered in selected areas during a field campaign and are completed with office work. The significance of vulnerability modifiers in the final vulnerability distribution is analyzed, and their relation with observed damage trends is explored. A direct application of the vulnerability modifiers is not capable of reproducing the observed damage patterns. A significant increase of vulnerability related to the performance of buildings presenting soft story is required to reach a damage distribution consistent with intensity estimates in the study areas. Accordingly, an intensity increase in certain study zones (as compared to other areas of the city of Lorca) is suggested. Although the approach followed in this study is applied in a city of Spain, it can be extrapolated to other areas where detailed vulnerability assessment is feasible and damage data are available. 相似文献
13.
Macroseismic and mechanical models for the vulnerability and damage assessment of current buildings 总被引:5,自引:3,他引:5
The European Commission funded the RISK-UE project in 1999 with the aim of providing an advanced approach to earthquake risk scenarios for European towns and regions. In the framework of Risk-UE project, two methods were proposed, originally derived and calibrated by the authors, for the vulnerability assessment of current buildings and for the evaluation of earthquake risk scenarios: a macroseismic model, to be used with macroseismic intensity hazard maps, and a mechanical based model, to be applied when the hazard is provided in terms of peak ground accelerations and spectral values. The vulnerability of the buildings is defined by vulnerability curves, within the macroseismic method, and in terms of capacity curves, within the mechanical method. In this paper, the development of both vulnerability and capacity curves is presented with reference to an assumed typological classification system; moreover, their cross-validation is presented. The parameters of the two methods and the steps for their operative implementation are provided in the paper. 相似文献
14.
L. G. Pujades A. H. Barbat R. González-Drigo J. Avila S. Lagomarsino 《Bulletin of Earthquake Engineering》2012,10(1):331-349
Between the late nineteenth century and the early twentieth century, Barcelona was expanded, occupying the terrains connecting
the old walled city and the nearby towns of the plateau of Barcelona. At that time, a large number of unreinforced masonry
buildings were constructed and nowadays many of them are still used as dwellings. Though built individually, these buildings
are connected to adjacent buildings, forming blocks composed of aggregates. In order to analyze the seismic behavior of isolated
buildings and aggregates, two typical central buildings and one typical corner building have been chosen. The two central
buildings and the corner building are referred as C1, C2, and E buildings. Two corner buildings and two central buildings have been connected in order to simulate a block side. This aggregate
is referred as AGG and it is composed by the following sequence of individual buildings: E-C1-C2-E. Original plans and drawings of existing buildings are then used to model these buildings. The modeled buildings have five
stories. Standard pushover analyses lead to evaluate their seismic performance by means of capacity spectra and fragility
curves. The analysis has been carried out in the parallel (Ux) and transversal (Uy) directions to the street. Then, a capacity
spectrum based method is used to analyze the seismic behavior of these buildings considered as individual buildings and as
an aggregate. Two earthquake scenarios are considered. The first one is a deterministic scenario which is based on a historical
earthquake occurred in 1,824, 25 km away from the city and the second one is a probabilistic scenario, which represents the
ground motion with a probability of occurrence of 10% in 50 years. The soil local effects have been also considered and both
scenarios have been used to assess the expected damage. Four non-null damage states are considered: slight (1), moderate (2),
severe (3) and extensive-to-collapse (4). For the type of soil where most of the buildings are, and in the Ux direction, the
four buildings show a similar behavior. The mean damage grade is 2.3 for the deterministic scenario and 2.7 for the probabilistic
one. This means that moderate to severe damage is expected in both cases; furthermore, in the case of the deterministic scenario
more than 10% of the buildings would suffer extensive-to-collapse damage and nearly 20% for the probabilistic scenario, confirming
the high vulnerability of such buildings. The differences in the expected damage are due to the significant different characteristics
of the response spectra of the earthquake scenarios in the range of the fundamental periods of the buildings. 相似文献
15.
Damage scenarios for Basel (Switzerland) are presented, based on a microzonation study and on the distribution of buildings in the different districts of the city. Two reference scenarios are assumed, corresponding to an event with an intensity between VII and VIII and a return period of 475 years, and an event that simulates the 1356 Basel earthquake with an intensity of IX in the city. The overall building damage in the different districts ranges between 8 and 20% for the intensity VII–VIII scenario, while for the intensity IX scenario values range from 31 to 56%. The variation in building vulnerability class within the city and the variability of local ground conditions affect the overall damage significantly, so that their influence on earthquake damage can accumulate or cancel for single districts. 相似文献
16.
In this paper,three problems are studied and their results are presented as follows:(1)classification of seismic vulnerability for existing buildings,(2)dynamic earthquake damage matrix analysis method of buildings,and(3)earthquake damage matrix of building in the year 2000. 相似文献
17.
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
18.
Seismic vulnerability and risk assessment: case study of the historic city centre of Coimbra, Portugal 总被引:5,自引:4,他引:1
Romeu Vicente Sonia Parodi Sergio Lagomarsino Humberto Varum J. A. R. Mendes Silva 《Bulletin of Earthquake Engineering》2011,9(4):1067-1096
Seismic risk evaluation of built-up areas involves analysis of the level of earthquake hazard of the region, building vulnerability
and exposure. Within this approach that defines seismic risk, building vulnerability assessment assumes great importance,
not only because of the obvious physical consequences in the eventual occurrence of a seismic event, but also because it is
the one of the few potential aspects in which engineering research can intervene. In fact, rigorous vulnerability assessment
of existing buildings and the implementation of appropriate retrofitting solutions can help to reduce the levels of physical
damage, loss of life and the economic impact of future seismic events. Vulnerability studies of urban centres should be developed
with the aim of identifying building fragilities and reducing seismic risk. As part of the rehabilitation of the historic
city centre of Coimbra, a complete identification and inspection survey of old masonry buildings has been carried out. The
main purpose of this research is to discuss vulnerability assessment methodologies, particularly those of the first level,
through the proposal and development of a method previously used to determine the level of vulnerability, in the assessment
of physical damage and its relationship with seismic intensity. Also presented and discussed are the strategy and proposed
methodology adopted for the vulnerability assessment, damage and loss scenarios for the city centre of Coimbra, Portugal,
using a GIS mapping application. 相似文献
19.
Seismic behavior of damaged buildings may be expressed as a function of their REsidual Capacity (REC), which is a measure of seismic capacity, reduced by damage. REC can be interpreted as the median value of collapse vulnerability curves. Its variation owing to damage is a useful indication of increased building vulnerability. REC reduction, indicating the lowering of seismic safety after an earthquake (performance loss, PL), represents an effective index for assessing the need of seismic repair/strengthening after earthquakes. The study investigates the applicability of a pushover‐based method in the analysis of damaged structures for the case of existing under‐designed RC buildings. The paper presents a systematization of the procedure in an assessment framework that applies the capacity spectrum method based on inelastic demand spectra; furthermore, the vulnerability variation of a real building is investigated with a detailed case study. The behavior of damaged buildings is simulated with pushover analysis through suitable modification of plastic hinges (in terms of stiffness, strength and residual drift) for damaged elements. The modification of plastic hinges has been calibrated in tests on nonconforming columns. The case study analysis evidenced that, for minor or moderate damages, the original structural displacement capacity was only slightly influenced, but the ductility capacity was significantly reduced (up to 40%) because of the increased structure deformability. This implied performance loss in the range 10%–20%. For severe damages the PL ranged between 41% and 56%. Local mechanism types exhibit PL nearly double with respect to global mechanism types. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
20.
The paper describes the earthquake performance assessment of two historical buildings located in Istanbul exposed to a Mw = 7+ earthquake expected to hit the city and proposes solutions for their structural rehabilitation and/or strengthening.
Both buildings are unreinforced clay brick masonry (URM) structures built in 1869 and 1885, respectively. The first building
is a rectangular-shaped structure rising on four floors. The second one is L-shaped with one basement and three normal floors
above ground. They survived the 1894, Ms = 7.0 Istanbul Earthquake, during which widespread damage to URM buildings took place in the city. Earthquake ground motion
to be used in performance assessment and retrofit design is determined through probabilistic and deterministic seismic hazard
assessment. Strength characteristics of the brick walls are assessed on the basis of Schmidt hammer test results and information
reported in the literature. Dynamic properties of the buildings (fundamental vibration periods) are measured via ambient vibration
tests. The buildings are modelled and analyzed as three-dimensional assembly of finite elements. Following the preliminary
assessment based on the equivalent earthquake loads method, the dynamic analysis procedure of FEMA 356 (Pre-standard and commentary
for the seismic rehabilitation of buildings, American Society of Civil Engineers, Reston, 2000) and ASCE/SEI 41-06 (Seismic rehabilitation of existing buildings, American Society of Civil Engineers, Reston, 2007) is followed to obtain dynamic structural response of the buildings and to evaluate their earthquake performance. In order
to improve earthquake resistance of the buildings, reinforced cement jacketing of the main load carrying walls and application
of fiber reinforced polymer bands to the secondary walls are proposed. 相似文献