中山市城区场地土层剪切波速及脉动特征

对中山市城区场地剪切波速及地面脉动测试的实测数据进行了统计分析，并结合土层厚度和其他地质资料的研究，得到中山市城区场土层剪切波速和地面脉动的分析特征以及场地土类型和建筑场地类别的分布，并对影响土层煎速度及脉周期的各种因素作了初步探讨。     

一维场地地震反应分析中的不确定性研究

在工程场地地震动的研究中 ,一维场地地震反应计算是一种常用的方法 ,但在计算模型、土层参数和输入地震动等环节上均存在不同程度的不确定性。本文较系统地回顾与总结了有关场地地震反应分析不确定性研究的历史和现状 ,在此基础上重点研究了土参数不确定性对场地地震反应分析的影响。本项研究首先探讨了土层剪切波速、厚度、密度以及非线性特性等的不确定性问题 ,在详细讨论分析以往的统计结果和计算方法的基础上 ,给出了土参数不确定性模型的合理估计 ,建立了土参数随机分布模型。考虑到一次二阶矩方法的精度不高 ,而且一般只适用于小参数…     

福州市区土层剪切波速与土层深度的经验关系研究

土层剪切波速是岩土工程勘察和工程地震中重要的土动力学参数。以福州市区常规土类为研究对象,利用大量地震安全性评价工作获得的346个钻孔7 562条实测剪切波速样本数据资料,分别运用一元二次多项式、指数和线性函数拟合方法,对福州市区8种不同典型土体进行土层剪切波速vS与土层深度H间的相关性统计回归,并以拟合优度为评价指标来考虑适用模型参数。结果表明,除卵石外,福州市区土层剪切波速与土层深度间的相关性较为明显,一元二次多项式函数的适用性更强。研究结果可供福州市区无场地剪切波速数据时参考使用。     

土层剪切波原位测试的误差分析及减小方法

弹性波在土层中的传播速度是反映土的动力特性的一项重要参数,根据波速测试的实测地层波速,场地土层剪切波速度不仅能为提供场地土的动力参数,成为地震反应分析的重要基本参数,同时也是场地分类法中划分场地类别的重要依据。本文根据误差分析理论,分析土层剪切波测试的误差来源及影响程度,通过作者十余年从事大量工程的波速测试工作工作经验,提出减小误差的具体方法。     

北海市土层剪切波速与埋深的关系

收集了2008年以来北海市城区44个工程场地地震安全性评价中的土层剪切波速测试资料,采用幂函数模型分别对粘土、粗砂、砾砂、其它土类的土层剪切波速与埋深进行加权回归分析,得到不同土类的模型参数及拟合优度指标(判定系数R2和误差标准差σ),并对回归方程和回归系数进行了显著性检验;最后将土层剪切波速预测值与实测值进行对比,验证回归关系式的合理性和适用性。结果表明:北海市城区土层剪切波速与埋深呈现出较好的幂函数关系,拟合优度均在0.81以上;给出的土层剪切波速回归关系式能较好地预测出不同埋深土层剪切波速,特别是在土层中部和底部推测结果准确性更高,其推测结果可供北海市城区缺乏剪切波速测试资料的场地参考使用。     

和田市土层剪切波速与土层埋深关系统计分析

收集和田市土层钻孔剪切波速实测数据,按照地貌单元划分,按不同岩性分别采用线性函数模型、一元二次函数模型及幂函数模型等三种模型进行土层剪切波速与土层埋深的统计回归分析,给出拟合参数和拟合优度R2,从而得到和田市各工程地质单元各类土层剪切波速与土层埋深关系公式。并对统计回归分析结果进行了显著性检验,此基础上计算出场地覆盖层厚度计算值,将土层剪切波速预测值与实测值、覆盖层厚度计算值与实测值进行对比,验证统计回归关系式的合理性和适用性。结果表明,统计分析得到的和田市城区各工程地质地貌单元各类土层剪切波速与土层埋深关系公式较为准确可靠。     

石家庄市区场地脉动特征及土层剪切波速

根据石家庄市区场地脉动和剪切波速的实例资料,分析了石家庄市区场地脉动的特征以及剪切波速,并给出了场地脉动周期与场地土怪固有周期的统计关系。认为该地区的脉动周期随覆盖层厚度及覆盖层层数的增大而减小,而剪切波速则随深度的增加而增大。     

山西临汾市区土层剪切波速与埋深关系的研究

土层剪切波速是地震小区划和工程场地地震安全性评价中的重要参数。选取临汾市汾河冲积平原一二级阶地和三级阶地共60个典型工程的土层剪切波速资料，分别采用三种经验模型进行统计回归分析，随机选取4个实测钻孔检验拟合程度。结果表明，该地区剪切波速与埋深存在明显的相关关系，将实测结果与拟合结果进行检验，经验关系式与实测的剪切波速值基本吻合，表明可用于该地区剪切波速的推测。     

下辽河平原区剪切波速与土层埋深关系分析

土体剪切波速是岩土工程勘察和地震安全性评价应用最广的参量之一。依据下辽河平原区大量的钻孔实测剪切波速数据,探讨了不同土类剪切波速与埋深间的关系:通过最小二乘法分别采用线性模型、指数模型和一元二次多项式模型建立了按土性分类的土体剪切波速与埋深间的统计公式,以拟合优度为评价指标进行对比选择,并与《构筑物抗震设计规范》的经验公式及工程场地实测结果进行了对比。结果表明:所推荐的剪切波速与埋深间的统计公式优于规范的经验公式;采用推荐公式与实测结果进行了土层地震反应分析对比,结果表明,两者计算结果差别不大,均可用于下辽河平原区一般建筑的工程勘察与地震安全评价。     

波速测试仪

一、概述在地震工程中,场地或地基土层的波速测量是一项很重要的基础工作。建筑物抗震设计规范的场地土分类、城市地震小区划中的地基土分类、抗震建筑的地基设计、重大工程的地震动分析,都要取得土层的波速资料。而在一般大型工程的设计中为评价工程基础的承载能力、稳定性以及地震设防等问题,通常都要测定反映岩土的动力特性及弹性力字指标的扬氏     

潜在震源区划分的不确定性分析

本文将潜在震源的不确定性分为震源类型与震源几何尺度的不确定性两类,用逻辑树方法概括了潜在震源区划分的各种可能方案,并据此给出了考虑潜在震源区划分不确定性的地震危险性分析的计算步骤。用本文的方法对上海市地震危险性进行了分析。     

Site effects evaluation in Málaga city’s historical centre (Southern Spain)

In this paper we present a site effects analysis carried out in Málaga city’s historical centre (Southern Spain). Two different methodologies have been used: an experimental technique using ambient noise measurements and a 1D numerical method. Soil fundamental frequencies have been obtained from the first technique, and soil transfer functions have been calculated from the numerical methodology. In order to use these results in vulnerability studies, intensity increments for each type of soil have also been estimated. From this information, a seismic microzonation has been proposed for the city centre, classified in six types of soils. Soil fundamental frequencies vary between above 5.0Hz at the hills of the city (where rock arises on the surface), and 1.0Hz near Guadalmedina river. The results show regions with high intensity increments (ΔI = +1.5) corresponding to areas which suffered heavy damage in the 1680 earthquake (I_max = VIII–IX). Moreover, most of the monuments and historical buildings in the city are located in these high risk areas. Results underline the importance of this kind of studies for seismic risk mitigation, historical preservation and emergency planning in the main cities’ historical centres.     

Vulnerability and risk analysis of monuments in Málaga city’s historical centre (Southern Spain)

A vulnerability analysis of some historical and monumental buildings in the city of Málaga is presented in this paper. More than twenty of these monuments were severely damaged or completely destroyed due to the large earthquake (I _max = VIII–IX) occurred in the Málaga region in October 1680. The vulnerability index methodology has been used in this paper. This technique is based on statistical data from seismic damage caused to Italian monuments for the past 30?years. For each building, vulnerability curves have been obtained and damage grades have been estimated. A comparison has been carried out between the expected damage grades and the damage observed from past earthquakes, in order to check the feasibility of applying this methodology to Spanish monuments. This comparison has been possible due to the fact that detailed seismic damage information exists for monuments in the city of Málaga that still exist today, which is a very uncommon case in Spain. Results show a good consistency between expected and observed damage, especially for the churches type. Two seismic scenarios have been proposed for the city centre, one deterministic and one probabilistic, where 54 historical and modern buildings have been analyzed. Both scenarios show worrying results, especially for the types of churches, chapels and towers, where expected high probabilities of suffering very heavy damage or even collapse have been obtained. It is highly recommended to take the necessary measures, in the hope of trying to avoid the possible damage that can be expected from future earthquakes.     

建筑物震害及其抗震设计的初步研究--以姚安6.5级地震震区建筑物破坏为例

对2000年1月15日姚安6．5级地震极震区（Ⅷ度）及姚安、大姚、南华和牟定等县城内的建筑物与结构物的震害做了系统的调研。本作为系列研究之二，分析了各类建筑物的地震破坏现象与相关设计，以及地震的破坏机理，讨论了地震区城镇建设中防震减灾应引起重视的有关问题；提出了在设计与施工中出现的若干问题及在这次地震灾害中获取的经验与教训。对今后多震区的城市规划、建筑物设计有一定的参考价值。     

The road map for seismic risk analysis in a Mediterranean city

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.     

泰安市高层建筑震害预测

通过对泰安市高层建筑现场调查及其震害预测分析研究,给出了遭受7、8、9、10度地震裂度影响时的预测结果,为研究制定泰安市抗震防灾对策提供了重要依据。     

Deterministic Earthquake Scenarios for the City of Sofia

— The city of Sofia is exposed to a high seismic risk. Macroseismic intensities in the range of VIII – X (MSK) can be expected in the city. The earthquakes that can influence the hazard in Sofia originate either beneath the city or are caused by seismic sources located within a radius of 40 km. The city of Sofia is also prone to the remote Vrancea seismic zone in Romania, and particularly vulnerable are the long-period elements of the built environment. The high seismic risk and the lack of instrumental recordings of the regional seismicity make the use of appropriate credible earthquake scenarios and ground-motion modelling approaches for defining the seismic input for the city of Sofia necessary. Complete synthetic seismic signals, due to several earthquake scenarios, were computed along chosen geological profiles crossing the city, applying a hybrid technique, which combines the modal summation technique and finite differences. The modelling takes into account simultaneously the geotechnical properties of the site, the position and geometry of the seismic source and the mechanical properties of the propagation medium. Acceleration, velocity and displacement time histories and related quantities of earthquake engineering interest (e.g., response spectra, ground-motion amplification along the profiles) have been supplied. The approach applied in this study allows us to obtain the definition of the seismic input at low cost, exploiting large quantities of existing data (e.g. geotechnical, geological, seismological). It may be efficiently used to estimate the ground motion for the purposes of microzonation, urban planning, retrofitting or insurance of the built environment, etc.     

组合剪力墙的抗震研究与发展

剪力墙是高层建筑结构中的核心抗侧力部件,研制抗震性能好的剪力墙,是建筑抗震设计的关键技术之一。组合剪力墙包括不同材料和不同结构形式的组合,可以发挥不同材料和不同结构形式各自的优势,使剪力墙的延性和耗能能力得以提高,从而改善其抗震性能。本文对国内外一些新型组合剪力墙的抗震研究工作进行了归纳总结,并对其发展作一展望。     

Use of Seismotectonic Information for the Seismic Hazard Analysis for Surat City, Gujarat, India: Deterministic and Probabilistic Approach

Surat, the financial capital of Gujarat, India, is a mega city with a population exceeding five millions. The city falls under Zone III of the Seismic Zoning Map of India. After the devastating 2001 Bhuj earthquake of Mw 7.7, much attention is paid towards the seismic microzonation activity in the state of Gujarat. In this work, an attempt has been made to evaluate the seismic hazard for Surat City (21.170?N, 72.830?E) based on the probabilistic and deterministic seismic hazard analysis. After collecting a catalogue of historical earthquakes in a 350?km radius around the city and after analyzing a database statistically, deterministic analysis has been carried out considering known tectonic sources; a further recurrence relationship for the control region is found out. Probabilistic seismic hazard analyses were then carried out for the Surat region considering five seismotectonic sources selected from a deterministic approach. The final results of the present investigations are presented in the form of peak ground acceleration and response spectra at bed rock level considering the local site conditions. Rock level Peak Ground Acceleration (PGA) and spectral acceleration values at 0.01?s and 1.0?s corresponding to 10% and 2% probability of exceedance in 50 years have been calculated. Further Uniform Hazard Response Spectrum (UHRS) at rock level for 5% damping, and 10% and 2% probability of exceedance in 50 years, were also developed for the city considering all site classes. These results can be directly used by engineers as basic inputs in earthquake-resistant design of structures in and around the city.     

Using the damage from 2010 Haiti earthquake for calibrating vulnerability models of typical structures in Port-au-Prince (Haiti)

After the 2010 Haiti earthquake, that hits the city of Port-au-Prince, capital city of Haiti, a multidisciplinary working group of specialists (seismologist, geologists, engineers and architects) from different Spanish Universities and also from Haiti, joined effort under the SISMO-HAITI project (financed by the Universidad Politecnica de Madrid), with an objective: Evaluation of seismic hazard and risk in Haiti and its application to the seismic design, urban planning, emergency and resource management. In this paper, as a first step for a structural damage estimation of future earthquakes in the country, a calibration of damage functions has been carried out by means of a two-stage procedure. After compiling a database with observed damage in the city after the earthquake, the exposure model (building stock) has been classified and through an iteratively two-step calibration process, a specific set of damage functions for the country has been proposed. Additionally, Next Generation Attenuation Models (NGA) and \(\hbox {Vs}^{30}\) models have been analysed to choose the most appropriate for the seismic risk estimation in the city. Finally in a next paper, these functions will be used to estimate a seismic risk scenario for a future earthquake.