新疆乌什、阿合奇台地倾斜异常图像与中强地震

统计分析了1988-1998年期间乌什台和阿合奇台地倾斜记录到的异常图像,发现其与周围250km范围尤其是柯坪块体上发生的4级以上地震有较好的对应关系。异常图像特征以葫芦串、错动、抖动等为主,异常持续时间为1—74天,主要集中在震前3天。最后对异常图像形成的可能机制作了初步的讨论。     

太原基准地震台地电阻率干扰形态特征分析

分析太原基准地震台2001年至2011年地电阻率观测中常见干扰因素,着重分析因不同干扰引起的图像变化特征,并就存在的问题提出合理化改进建议,力求对观测场地的选择、线路架设、资料分析、异常的判断及地震预测预报具有一定指导意义。     

汶川地震近震源区地形变短期前兆现象的解析

2008年汶川8.0级地震是我国自建国以来灾难最为严重的一次强地震, 有关震前该区域地壳变形情况引起许多学者的关注。 本文给出了沿龙门山地震带地倾斜及跨龙门山断裂断层水准剖面临震前变化的特征: 汶川地震前沿龙门山地震带分布的康定、 汶川及茂县台地倾斜无明短期显变化; 6个断层水准观测场地, 除耿达场地观测到较大幅度变化有争议外, 其他断层观测场震前均未观测到突出的短临前兆性异常变化。 本文分析了汶川地震前大区域地震活动性资料及震前沿南北地震带显著形变异常点分布特点, 探讨了汶川地震震中区域应变积累过程, 认为近震源区域无显著短期前兆变化现象很可能与震中区域介质所具有的高应变、 小变形性质有关。 另外, 也不排除地形变观测点所处的位置等有关因素。     

新疆皮山地区地震动衰减关系研究

利用2015年7月3日皮山M_S6.5地震序列的波形资料,采用微遗传算法反演得到震源区的5个介质参数,即应力降Δσ为75.95bars,品质因子Q_0为186.33,η值为0.26,几何衰减分段点R_1为72.18km,R_2为139.70km;并由此计算得到的傅氏谱再配合随机相位谱,进而得到地震动时程,建立了震源区地震动衰减关系。由于缺乏强震记录,本文还收集了2008年10月5日乌恰M_S6.9地震、2008年10月6日阿克陶M_S6.2地震、2012年3月9日洛浦M_S6.0地震的强震数据,将计算结果与经验性衰减关系以及3次强震记录进行比较后发现,皮山地震、洛浦地震的强震数据普遍高于经验性衰减关系,乌恰地震的强震数据与俞言祥等文中的衰减关系吻合较好,在远场低于本文的计算结果。     

探地雷达在LNAPL污染土壤探测中的应用进展研究

轻非水相液体(LNAPL)的不当使用、渗漏及不当处置等会造成严重的土壤和地下水污染,威胁环境和公共卫生安全.探地雷达(GPR)作为一项重要的浅表地球物理观测技术已在LNAPL污染土壤探测中发挥重要作用.本文对近年来国内外学者利用GPR探测LNAPL污染土壤方面的理论和应用研究进行梳理,结合实例主要从以下几个方面开展评述.这些方面包括LNAPL污染土壤电性特征、基于GPR探测的LNAPL污染土壤建模、GPR信号响应、GPR的测量方式等.这些理论与应用研究为如何从场地的地质和水文背景中提取与污染有关的GPR信号做出了指导与成功的示范.现场和实验室的大量的研究工作表明,所有成功的案例都不可能倚赖单一的手段或方法.直接(例如,钻孔)和间接(例如,GPR)调查结合,多手段、多方法的有效配合,才有可能最大程度的减小探测结果的非唯一性,达到全面准确了解污染场地的目的.     

Assessment of various CPT based liquefaction severity index frameworks relative to the Ishihara (1985) H1–H2 boundary curves

The objective of the study presented herein is to develop an understanding of the predictive trends of four different liquefaction severity index frameworks, with emphasis on the utility of the frameworks for assessing liquefaction vulnerability in Christchurch, New Zealand. Liquefaction induced land damage was widespread following the four major earthquakes in Christchurch (M_w 5.9–7.1) between 4 September 2010 and 23 December 2011. As part of the rebuilding effort, a major focus, to date, has been on assessing/developing approaches for evaluating vulnerability to liquefaction induced damage in future events. The four liquefaction severity index frameworks that are evaluated herein are: the one-dimensional volumetric reconsolidation settlement (S_V1D), the Liquefaction Potential Index (LPI), and two new liquefaction severity indices developed following the major earthquakes in Christchurch, namely the Ishihara inspired LPI (LPI_ISH) and the Liquefaction Severity Number (LSN). To assess the predictive trends of the four severity index frameworks, the H₁–H₂ boundary curves developed by Ishihara (1985) are used as a reference of comparison. In large part, the severity index frameworks serve the same purpose as the Ishihara boundary curves, but they alleviate some of the difficulties in implementing the Ishihara boundary curves for assessing the highly stratified soil profiles that underlie much of Christchurch. A parametric study was performed wherein relatively simple soil profiles are evaluated using all the procedures and contour plots of calculated S_V1D, LPI, LPI_ISH, and LSN values were superimposed onto the Ishihara boundary curves. The results indicate that the LPI_ISH and LSN indices yield similar trends as the Ishihara boundary curves, whereas the S_V1D and LPI indices do not. Furthermore, little field data is available to assess the severity indices for the scenarios where the trends in the LPI_ISH and LSN indices differ.     

The Influence of Surface Building's Relative Position on the Seismic Response of Subway Structures

By using the finite element method and viscoelastic artificial boundary,a soil-structure interaction system is established to simulate the influence of surface buildings on the seismic response of subway structures.The conditions of different relative positions between ground building and subway structure are analyzed.The results indicate that when considering the existence of surface buildings,the relative story displacements and internal forces of subway structures are changed greatly.Further the influence of surface buildings on subway structure changes as the distance increases.     

Nonlinear 3D finite element analysis of soil–pile–structure interaction system subjected to horizontal earthquake excitation

The dynamic response of a seismic soil–pile–structure interaction (SSPSI) system is investigated in this paper by conducting nonlinear 3D finite element numerical simulations. Nonlinear behaviors such as non-reflecting boundary condition and soil–pile–structure interaction modeled by the penalty method have been taken into account. An equivalent linear model developed from the ground response analysis and the modified Drucker–Prager model are separately used for soil ground. A comparison of the two models shows that the equivalent linear soil model results in an underestimated acceleration response of the structure under this ground shaking and the soil behavior should be considered as a fully-nonlinear constitutive model in the design process of the SSPSI system. It was also observed that the dynamic response of the system is greatly affected by the nonlinearity of soil–pile interface and is not sensitive to the dilation angle of the soil. Furthermore, the effect of the presence of pile foundations on SSPSI response is also analyzed and discussed.     

探索基于地震动峰值加速度的地震灾害评估方法

将福建省面积按0.05°（约5 km）网格离散化后得到4 361个网格点,在地震发生后根据全省台站的监测数据进行计算,每个网格点都能快速得到地震动峰值加速度。利用这些已经赋有地理信息和加速度的网格点对全省乡镇级单位的行政区进行烈度计算和赋值提出一种基于地震动峰值加速度的地震灾害评估方法。