西南天山明尧勒背斜的第四纪滑脱褶皱作用

通过对明尧勒活动背斜喀浪勾律克河剖面生长前地层和翼部生长地层几何结构的填图以及变形河流阶地的系统测量,结合磁性地层及释光年代学研究,认为该背斜的滑脱褶皱作用起始于距今约1·6Ma,其总体几何结构形成于褶皱作用的早期,但其生长扩展并不完全遵从自相似性特征。持续的缩短作用部分被褶皱翼部陡倾膝折带的加长所吸收(由此导致背斜波幅的增加),另一部分可能是通过不同时期褶皱翼部不同膝折带组的旋转和迁移来实现的。明尧勒背斜的持续构造抬升是背斜区河流下切形成多级基座阶地的主因。晚第四纪褶皱的生长以背斜的垂直抬升为主,主要集中在北翼近核部,背斜宽度变化不大。背斜不同时期的抬升量和抬升速率均大于其缩短量和缩短速率,表明明尧勒背斜的变形以翼旋转为主(Pobletet al.,1996)。背斜自形成以来缩短速率和抬升速率均有减小的趋势     

二维介质柱的电磁成像研究

从体等效原理出发得到用介质柱介电参数表示的体等效电流,并得到一个积分方程组求解散射问题．利用变分原理,对此方程组求变分,并化为矩阵方程组,消去含介质柱内总场变化的项,得到散射场变化与介质柱介电参数变化之间关系的矩阵方程．即反演方程．用算例检验此法的反演精度、收敛性能、多目标反演能力、抗噪声性能及利用不完备测量散射信息反演目标的能力．结果表明,此法是一种实用性很强的二维介质柱电磁成像方法．     

基于ANSYS自定义单元的半刚性梁柱节点抗震滞回性能模拟分析

采用峰值指向滞回模型模拟半刚性连接在循环荷载下的非线性行为,建立了能同时考虑几何、材料和连接非线性的精细塑性铰法平面梁柱单元模型,利用ANSYS用户可编程特性（UPFs）,对自定义单元进行编译并嵌入到ANSYS平台中。利用试验数据拟合得到滞回模型参数,经自定义单元进行分析计算,得到节点的载荷-位移滞回曲线。通过与试验结果对比分析表明:模拟结果与试验结果吻合良好,该单元模型具有很大优势,可用于半刚性梁柱节点的滞回性能分析。     

Seismic Behaviour of Slightly Reinforced Concrete Walls: Experiments and Theoretical Conclusions

In order to develop new standards related to structures in seismic regions, a series of research programmes has been conducted on slightly reinforced structural walls commonly used in France. Based on these researches, a method of design of such walls submitted to a seismic action has been set up. This method used in the PS92 code differs from that used for ductile walls, where a plastic hinge can develop at the base of the wall. The analysis is similar to the push over analysis presently given in Eurocode 8. These various researches have confirmed the validity of the design concept developed for the PS92 code, on one hand, and highlighted a number of phenomena linked to the non linear behaviour of reinforced concrete walls, on the other hand. The present article aims at presenting a synthesis of the results obtained during these research programmes.     

The transfer matrix method applied to steel sheet pile walls

This paper proposes two subgrade reaction models for the analysis of steel sheet pile walls based on the transfer matrix method. In the first model a plastic hinge is generated when the maximum moment in the retaining structure is exceeded. The second model deals with a beam with an asymmetrical cross‐section that can bend in two directions. In the first part of this paper the transfer matrix method is explained on the basis of a simple example. Further the development of two computer models is described: Plaswall and Skewwall. The second part of this paper deals with an application of both models. In the application of Plaswall the effect of four current earth pressure theories to the subgrade reaction method is compared to a finite element calculation. It is shown that the earth pressure theory is of major importance on the calculation result of a sheet pile wall both with and without a plastic hinge. In the application of Skewwall the effectiveness of structural measures to reduce oblique bending is investigated. The results are compared to a 3D finite element calculation. It is shown that with simple structural measures the loss of structural resistance due to oblique bending can be reduced. Copyright © 2003 John Wiley & Sons, Ltd.     

抗弯框架-钢板剪力墙结构体系抗震性能研究

基于等效拉杆理论和静力弹塑性分析法,对8层钢板剪力墙结构进行了静力推覆分析,在节点铰接和刚接连接形式下,分析了结构层间剪力分配、荷载-位移曲线、塑性铰出现顺序等指标,研究了节点刚度变化对结构整体性能的影响.结果表明:三跨刚接模型中,剪力墙承担约65％水平剪力,钢框架承担约35％,梁柱铰接后承载力降低29％左右.单跨刚接模型中,剪力墙承担约80％水平剪力,钢框架承担约20％,梁柱铰接后承载力降低9％左右.梁柱刚接为双重抗侧力体系,相邻跨框架能提供有效刚度,节点连接形式对结构承载力的影响不容忽视.     

Pushover analysis of reinforced concrete frames considering shear failure at beam-column joints

Since most current seismic capacity evaluations of reinforced concrete(RC) frame structures are implemented by either static pushover analysis(PA) or dynamic time history analysis,with diverse settings of the plastic hinges(PHs) on such main structural components as columns,beams and walls,the complex behavior of shear failure at beam-column joints(BCJs) during major earthquakes is commonly neglected.This study proposes new nonlinear PA procedures that consider shear failure at BCJs and seek to assess the actual damage to RC structures.Based on the specifications of FEMA-356,a simplified joint model composed of two nonlinear cross struts placed diagonally over the location of the plastic hinge is established,allowing a sophisticated PA to be performed.To verify the validity of this method,the analytical results for the capacity curves and the failure mechanism derived from three different full-size RC frames are compared with the experimental measurements.By considering shear failure at BCJs,the proposed nonlinear analytical procedures can be used to estimate the structural behavior of RC frames,including seismic capacity and the progressive failure sequence of joints,in a precise and effective manner.     

鄂尔多斯盆地海相碳酸盐岩层系天然气成藏研究

鄂尔多斯盆地两套优质烃源岩,即上奥陶统背锅山组泥灰岩和中奥陶统平凉组中下部页岩,是海相碳酸盐岩层系古油藏原油和现今靖边气田油型气的主要来源。两套优质烃源岩主要分布在盆地的西部和西南部,呈"L"型展布,盆地内部缺失;它们累计厚度约50~350m。平凉泥岩TOC介于0.5%~1.2%,平均0.9%,厚度20~50m,而灰岩TOC主要分布在0.2%~0.4%区间,平均0.3%。背锅山组泥岩有机碳相对较高,TOC介于0.22%~3.3%,平均为0.93%。三叠纪末期,两套优质烃源岩生成的大量液态烃类进入中央古隆起控制的斜坡部位,形成古油藏;侏罗纪-早白垩世,地层持续加深和地温梯度升高,烃源岩热演化程度达到高-过成熟阶段,古油藏温度超过180℃,原油开始热裂解生成天然气。油气的热裂解导致气藏压力不断增大,驱使部分气体进一步扩散运移。晚白垩世燕山运动IV幕,盆地东部大规模持续挤压抬升导致了原有油气藏经历了西高东低转变为东高西低的构造反转,形成构造枢纽。中央隆起带聚集油气的优势被改造,裂解形成的天然气向东或东北方向运移。但是运移过程中,东部盐岩、膏盐、致密碳酸盐岩侧向封堵。在靖边气田中心部位,由于奥陶系顶部缺失石炭系铁铝土岩封盖,使得部分石炭-二叠系生成的天然气沿着不整合面进入风化壳,形成从奥陶系来源的原油裂解气与石炭-二叠系生成的煤型气相混合。     

The cause of unproportionately large higher mode contributions in the inelastic seismic responses of high‐rise core‐wall buildings

In the conventional seismic design of high‐rise reinforced concrete core‐wall buildings, the design demands such as design shear and bending moment in the core wall are typically determined by the response spectrum analysis procedure, and a plastic hinge is allowed to form at the wall base to limit the seismic demands. In this study, it is demonstrated by using a 40‐story core‐wall building that this conventional approach could lead to an unsafe design where the true demands—the maximum inelastic seismic demands induced by the maximum considered earthquake—could be several times greater than the design demands and be unproportionately dominated by higher vibration modes. To identify the cause of this problem, the true demands are decomposed into individual modal contributions by using the uncoupled modal response history analysis procedure. The results show that the true demands contributed by the first mode are reasonably close to the first‐mode design demands, while those contributed by other higher modes are much higher than the corresponding modal design demands. The flexural yielding in the plastic hinge at the wall base can effectively suppress the seismic demands of the first mode. For other higher modes, however, a similar yielding mechanism is either not fully mobilized or not mobilized at all, resulting in unexpectedly large contributions from higher modes. This finding suggests several possible approaches to improve the seismic design and to suppress the seismic demands of high‐rise core‐wall buildings. Copyright © 2012 John Wiley & Sons, Ltd.     

Evaluation of performance of non‐invasive upgrade strategy for beam–column sub‐assemblages of poorly designed structures under seismic type loading

Beam–column sub‐assemblages are the one of the most vulnerable structural elements to the seismic loading and may lead to devastating consequences. In order to improve the performance of the poorly/under‐designed building structures to the critical loading scenarios, introduction of steel bracing at the RC beam–column joint is found to be one of the modern and implementable techniques. In the present work, a diagonal metallic single haunch/bracing system is introduced at the beam–column joints to provide an alternate load path and to protect the joint zone from extensive damage because of brittle shear failure. In this paper, an investigation is reported on the evaluation of tae influence of different parameters, such as angle of inclination, location of bracing and axial stiffness of the single steel bracing on improving the performance through altering the force transfer mechanism. Numerical investigations on the performance of the beam–column sub‐assemblages have been carried out under cyclic loading using non‐linear finite element analysis. Experimentally validated numerical models (both GLD and upgraded specimen) have been further used for evaluating the performance of various upgrade schemes. Cyclic behaviour of reinforcement, concrete modelling based on fracture energy, bond‐slip relations between concrete and steel reinforcement have been incorporated. The study also includes the numerical investigation of crack and failure patterns, ultimate load carrying capacity, load displacement hysteresis, energy dissipation and ductility. The findings of the present study would be helpful to the engineers to develop suitable, feasible and efficient upgrade schemes for poorly designed structures under seismic loading. Copyright © 2016 John Wiley & Sons, Ltd.