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51.
利用地震振动台对大跨预应力混凝土井式梁空间框架结构的抗震性能进行了实验研究。两个模型的实验结果表明:(1)大跨预应力井式梁空间框架结构可以提供大的楼层平面内刚度;(2)对称大跨预应力井式梁空间框架结构,可以不考虑耦合地震反应;(3)大跨预应力井式梁空间框架结构的竖向地震反应中心大而周边小;(4)在相同加速度但不同的地震波作用下,结构的竖向地震反应不同。 相似文献
52.
填充墙与钢框架协同工作性能非线性分析 总被引:5,自引:2,他引:5
在试验研究的基础上,运用ANSYS有限元中的接触单元建模,对加气混凝土填充墙钢框架的结构性能进行了研究,同时与纯钢框架结构在强度、刚度、以及延性等方面进行了对比分析,结果表明:填充墙与钢框架协同工作能够改善钢框架结构的受力性能和抗震能力,这为钢结构及其围护体系的研究与推广应用提供了一定的理论依据。 相似文献
53.
十八烷基三甲基铵改性蒙脱石的结构和凝胶性能关系研究 总被引:1,自引:2,他引:1
利用小角X射线衍射技术研究在不同的十八烷基三甲基铵盐用量下制备的有机蒙脱石的结构特征,将具有不同晶体结构特征的有机蒙脱石分别分散在二甲苯、乙醇混合相和0#柴油中,测定在相应溶剂体系中的凝胶性能,研究发现当十八烷基三甲基铵盐的用量小于0.9 CEC时,十八烷基三甲基铵盐阳离子在蒙脱石层间呈单层平卧排列,由于在有机溶剂中蒙脱石得不到充分的剥离而导致有机蒙脱石的凝胶性能较差,表现为有机凝胶的粘度和胶体率都较低;当十八烷基三甲基铵盐的用量在0.9 CEC~1.8 CEC时,十八烷基铵阳离子在蒙脱石层间呈单层倾斜排列,在有机相中蒙脱石不仅能得到充分的剥离,而且能形成稳定的"卡房式结构",使有机凝胶的黏度和胶体率分别最高达到23 000mPa.s和100%;而当十八烷基铵盐的用量大于1.8 CEC时,十八烷基铵有机物在蒙脱石层间呈胶束排列,尽管在有机相中能得到充分的剥离,但由于过量的有机阳离子中和了蒙脱石层面的负电荷,在体系中不能形成稳定的"卡房式结构",使有机蒙脱石的凝胶粘度较低,而胶体率较高。 相似文献
54.
A method developed by Røste et al. , which discriminates between layer thickness and velocity changes, is tested on pre-stack time-lapse seismic ocean bottom cable (OBC) data from the Valhall Field. A key parameter in this discrimination process is the dilation factor, α, which is the relative velocity change divided by the relative thickness change within a given layer. The high quality and good repeatability of the OBC data enables us to estimate α with a reasonable accuracy for α-values between 0 and −5. For α-values below −5, complementary information, like for instance geomechanics is required. For the top reservoir horizon we estimate a maximum subsidence of 0.50 m ± 0.29 m and a corresponding velocity decrease for the sequence from the seabed to the top reservoir of 2.0 m s−1 ± 0.40 m s−1 .
Time-lapse distortion patterns with characteristic time-shift versus offset signatures are observed. The positions and vertical extents of the distortion zones are determined from ray path considerations and modelling. The distortion zones correlate with buried faults, indicating that a (time-lapse) distortion zone might be produced by a localized slip in a fault zone. We present an extended method which allows for vertical (in addition to lateral) variations in the relative thickness and velocity changes. This method can be viewed as a simplified version of time-lapse tomography, but involving fewer unknown parameters, giving more stability to the estimated changes in thickness and velocity. Using this technique, we are able to estimate α for positions with localized time-lapse distortions. 相似文献
Time-lapse distortion patterns with characteristic time-shift versus offset signatures are observed. The positions and vertical extents of the distortion zones are determined from ray path considerations and modelling. The distortion zones correlate with buried faults, indicating that a (time-lapse) distortion zone might be produced by a localized slip in a fault zone. We present an extended method which allows for vertical (in addition to lateral) variations in the relative thickness and velocity changes. This method can be viewed as a simplified version of time-lapse tomography, but involving fewer unknown parameters, giving more stability to the estimated changes in thickness and velocity. Using this technique, we are able to estimate α for positions with localized time-lapse distortions. 相似文献
55.
A seismic design procedure that does not take into account the maximum and cumulative plastic deformation demands that a structure is likely to undergo during severe ground motion could lead to unsatisfactory performance. In spite of this, current design procedures do not take into account explicitly the effect of low‐cycle fatigue. Based on the high correlation that exists between the strength reduction factor and the energy demand in earthquake‐resistant structures, simple procedures can be formulated to estimate the cumulative plastic deformation demands for design purposes. Several issues should be addressed during the use of plastic energy within a practical performance‐based seismic design methodology. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
56.
Earthquake early warning systems (EEWS) seem to have potential as tools for real‐time seismic risk management and mitigation. In fact, although the evacuation of buildings requires warning time not available in many urbanized areas threatened by seismic hazard, they may still be used for the real‐time protection of critical facilities using automatic systems in order to reduce the losses subsequent to a catastrophic event. This is possible due to the real‐time seismology, which consists of methods and procedures for the rapid estimation of earthquake features, as magnitude and location, based on measurements made on the first seconds of the P‐waves. An earthquake engineering application of earthquake early warning (EEW) may be intended as a system able to issue the alarm, if some recorded parameter exceeds a given threshold, to activate risk mitigation actions before the quake strikes at a site of interest. Feasibility analysis and design of such EEWS require the assessment of the expected loss reduction due to the security action and set of the alarm threshold. In this paper a procedure to carry out these tasks in the performance‐based earthquake engineering probabilistic framework is proposed. A merely illustrative example refers to a simple structure assumed to be a classroom. Structural damage and non‐structural collapses are considered; the security action is to shelter occupants below the desks. The cost due to a false alarm is assumed to be related to the interruption of didactic activities. Results show how the comparison of the expected losses, for the alarm‐issuance and non‐issuance cases, allows setting the alarm threshold on a quantitative and consistent basis, and how it may be a tool for the design of engineering applications of EEW. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
57.
Didier Pettinga Constantin Christopoulos Stefano Pampanin Nigel Priestley 《地震工程与结构动力学》2007,36(12):1763-1783
Developments in performance‐based seismic design and assessment approaches have emphasized the importance of considering residual deformations. Recent investigations have also led to a proposed direct displacement‐based design (DDBD) approach which includes an explicit consideration of the expected residual deformations as an integral part of the design process. Having estimated the expected residual deformations in a structure, engineers are faced with the problem of reducing them to meet the targeted performance levels under pre‐defined seismic hazard levels. Previous studies have identified the post‐yield stiffness as a primary factor influencing the magnitude of residual deformations in single degree of freedom and multiple degree of freedom structures. In this paper, a series of simple approaches to increase the post‐yield stiffness of traditional framed and braced systems for the purpose of reducing residual deformations are investigated. These methods do not utilize recentring post‐tensioned technology. This contribution addresses the feasibility of altering the lateral post‐yield stiffness of structural systems by: (i) using different reinforcement materials with beneficial features in their stress–strain behaviour; (ii) re‐designing the section geometry and properties of primary seismic‐resisting elements; and (iii) introducing a secondary elastic frame to act in parallel with the primary system. The efficiency of each of these techniques is investigated through monotonic and cyclic moment‐curvature and non‐linear time‐history analyses. Of these approaches the design and introduction of an elastic secondary system was found to be most effective and consistent in reducing residual deformations. A simplified design approach for achieving the desired increase of a system's post‐yield stiffness is also presented. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
58.
Brendon A. Bradley Rajesh P. Dhakal Misko Cubrinovski John B. Mander Greg A. MacRae 《地震工程与结构动力学》2007,36(14):2211-2225
An improved seismic hazard model for use in performance‐based earthquake engineering is presented. The model is an improved approximation from the so‐called ‘power law’ model, which is linear in log–log space. The mathematics of the model and uncertainty incorporation is briefly discussed. Various means of fitting the approximation to hazard data derived from probabilistic seismic hazard analysis are discussed, including the limitations of the model. Based on these ‘exact’ hazard data for major centres in New Zealand, the parameters for the proposed model are calibrated. To illustrate the significance of the proposed model, a performance‐based assessment is conducted on a typical bridge, via probabilistic seismic demand analysis. The new hazard model is compared to the current power law relationship to illustrate its effects on the risk assessment. The propagation of epistemic uncertainty in the seismic hazard is also considered. To allow further use of the model in conceptual calculations, a semi‐analytical method is proposed to calculate the demand hazard in closed form. For the case study shown, the resulting semi‐analytical closed form solution is shown to be significantly more accurate than the analytical closed‐form solution using the power law hazard model, capturing the ‘exact’ numerical integration solution to within 7% accuracy over the entire range of exceedance rate. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
59.
A methodology has been proposed which can be used to reduce the number of ground motion records needed for the reliable prediction of the median seismic response of structures by means of incremental dynamic analysis (IDA). This methodology is presently limited to predictions of the median IDA curve only. The reduction in the number of ground motion records needed to predict the median IDA curve is achieved by introducing a precedence list of ground motion records. The determination of such a list is an optimization problem, which is solved in the paper by means of (1) a genetic algorithm and (2) a proposed simple procedure. The seismic response of a simple, computationally non‐demanding structural model has been used as input data for the optimization problem. The presented example is a three‐storey‐reinforced concrete building, subjected to two sets of ground motion records, one a free‐field set and the other a near‐field set. It is shown that the median IDA curves can be predicted with acceptable accuracy by employing only four ground motion records instead of the 24 or 30 records, which are the total number of ground motion records for the free‐field and near‐field sets, respectively. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
60.
3S技术在晚稻长势监测中的综合应用研究 总被引:12,自引:1,他引:12
以江西省为试验区,探讨用RS-GIS-GPS技术监测作物长势的方法和途径。针对丘陵山区地形复杂、地块不成规模的情况,在GIS支持下,将数字高程数据、土地利用分类数据与GPS定位观测数据相结合,对NOAA/AVHRR进行判读,提取反映双季晚稻长势的植被指数,用该指数与GPS定位观测资料及地理信息数据进行监督分类监测苗情,并用迭代自组织分析法进行无GPS定位观测资料时相应时相的NOAA/AVHRR的长势监测。研究结果表明,选用的地理信息数据(数字高程数据、土地利用分类)与GPS定位观测资料相结合提高NOAA/AVHRR数据的利用效果是适合的和切实可行的。 相似文献