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1.
直接基于位移可靠度的抗震设计方法中目标位移代表值的确定 总被引:8,自引:0,他引:8
针对20多个现役结构,以基于力的抗震设计方法所求基底剪力与直接基于位移的抗震设计方法所求基底剪力相等为原则,回归给出了直接基于位移的抗震设计中基底剪力的调整系数。在此基础上,通过进一步分析,提出了直接基于位移可靠度的抗震设计中层间目标位移代表值的确定方法。最后,总结给出了直接基于位移可靠度的抗震设计步骤。 相似文献
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一种直接基于位移的结构抗震设计方法 总被引:1,自引:1,他引:0
利用我国现行抗震规范,直接根据结构的底层层间目标位移反向求取结构的底层层间屈服剪力;给出了该屈服剪力与结构基底剪力之比的数学表达式,初步分析了影响该比值的主要因素及其影响规律。在此基础上,提出了一种新的直接基于位移的结构抗震设计方法。最后,通过算例分析初步考察了该方法的可行性。 相似文献
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钢框架结构直接基于位移抗震性能设计的非迭代法 总被引:1,自引:1,他引:0
为使直接基于位移的抗震性能设计方法更加简便准确,本文采用一种直接基于位移的非迭代抗震设计方法对钢框架结构进行设计。该方法首先考虑结构的非弹性反应确定等效弹性反应谱和弹塑性反应谱,并建立了使用Newmark-Hall变形折减系数的能力谱的明确表达式。采用能力-需求图方法,确定了结构需要的目标位移与延性、谱位移和谱加速度之间关系的明确表示式,得到结构的刚度和设计基底剪力,进而确定构件截面,完成结构设计。对五层两跨平面钢框架结构进行了直接基于位移的抗震性能设计,设计过程简便,无需迭代程序,不需画出反应谱,通过时程分析验证了设计结果的精确性。本文研究表明:直接基于位移的非迭代抗震设计方法是一种简便、高效、精确的抗震性能设计方法。 相似文献
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超高层结构地震剪力响应由振型分解反应谱法得到的结果经常不能满足规定的最小剪力系数要求。为此,文章简述剪力系数的概念和调整方法,以具有不同剪力系数的两个模型对比分析结构弹性、弹塑性地震响应差异,探讨剪力系数对超高层结构地震响应的影响。以通过强度和刚度调整使最小剪力系数满足规范要求的两个模型,分析不同调整方法引起的结构响应的合理性。结果表明:满足最小剪力系数的结构的弹性基底剪力大、层间位移角较小,结构的弹塑性位移响应也较小,受力状态优于不满足最小剪力系数的结构,安全性得到了提高。结构弹性倾覆力矩需求和弹塑性基底剪力按刚度调整大于按强度调整;结构弹塑性最大顶点位移和层间位移角响应相差不大,但出现刚度大\,层间位移角也大的与抗震理论相悖的情况;在满足抗震要求的情况下,构件的受力状态则是按强度调整更优,构件截面更加经济合理。 相似文献
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一种直接基于位移的抗震设计方法 总被引:1,自引:0,他引:1
马宏旺 《地震工程与工程振动》2007,27(2):45-50
与传统基于力的抗震设计方法相比,基于位移的抗震设计方法更适合实现基于性能抗震设计。本文在若干文献的基础上,提出了一种直接基于位移的抗震设计方法。该方法建立在结构屈服位移可由几何尺寸确定的基础上,根据不同水平地震作用下的目标设计位移,计算相应的延性系数,采用一定的Rμ-μ-Tn关系建立相应的非线性反应谱,以二折线模型模拟结构的性能曲线,然后根据结构不同的目标位移以及对应的非线性反应谱确定相应的有效周期,从中选择最小值作为设计结构的有效周期,根据有效周期计算结构的刚度,然后乘以屈服位移得到结构的屈服强度。根据结构屈服强度以及结构的超强系数,得到结构的设计基底剪力。该方法避免了设计中采用迭代计算,且一次设计就可以完成多水平设防的目的。 相似文献
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为检验抗侧刚度比和支撑布置方式等因素对具有不同总层数的屈曲约束支撑钢框架的抗震性能影响,借助SAP2000软件,探讨6层、12层、18层屈曲约束支撑钢框架结构在抗侧刚度比分别为1、2、3、4、5共五种工况及倒V型和单斜向两种支撑布置方式下的抗震性能。结果表明,屈曲约束支撑钢框架结构基底剪力-顶点位移曲线呈典型的双线性特征;随抗侧刚度比的增大,结构的层间位移角总体上呈降低趋势,基底剪力及支撑轴力增大,顶点水平位移变小,框架所分担的剪力降低;倒V型布置支撑较单斜向布置具有略大的基底剪力、谱加速度,较小的顶点位移、层位移、层间剪力和框架剪力分担率。分析表明,总体上来看,倒V型布置较单斜向布置时支撑框架结构具有略优的抗震性能;抗侧刚度比较支撑布置方式对支撑框架结构抗震性能的影响更为显著。 相似文献
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基于《公路桥梁抗震设计规范》“两阶段”设防原则,采用SAP2000有限元软件建立震损加固桥墩数值模型,通过构建与设防水准地震相匹配的结构性能水准,选取基底剪力和墩顶位移作为结构性能评价指标,建立基于能力需求比的双层高架桥墩抗震性能评估流程,从抗震性能和损伤修复效果角度,对外包钢套含钢量和强度的影响进行分析。研究结果表明,中度损伤试件经外包钢套加固后基底剪力和墩顶位移能力需求比分别提高了76.72%、62.93%,重度损伤试件经外包钢套加固后基底剪力和墩顶位移能力需求比分别提高了62.98%、51.94%;当外包钢套含钢量ρ<0.98%时,重度损伤加固试件基底剪力能力需求比呈负向增长,承载能力修复效果不理想;当外包钢套含钢量ρ>2.08%时,中度损伤及重度损伤加固试件墩顶位移能力需求比提高率大于基底剪力,此时变形能力修复效果优于承载能力;提高外包钢套强度显著增强了中度损伤和重度损伤加固试件承载能力,但变形能力基本不提高。 相似文献
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为了解楼板空间作用对型钢混凝土(SRC)柱-钢梁混合框架抗震性能的影响,利用有限元软件ABAQUS分别建立带有楼板和不带楼板的两跨三层SRC柱-钢梁框架,选取2组天然波和1组人工波对其进行弹塑性分析,对比2种框架结构的型钢应力分布、混凝土板损伤、层间相对位移角以及框架基底剪力,分析楼板在结构抗震中的影响规律。结果表明:增加楼板可以有效增加框架抗侧刚度,最大可使层间位移角降低38.7%;同时可以减小核心区梁端塑性区域的面积,减缓型钢上翼缘应力发展速度;而且楼板的存在可使最大基底剪力提升60.7%,有利于减小结构损伤和提高抗震性能。 相似文献
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目前城市中存在着大量的老旧砌体房屋,由于建造年代久远,房屋大多缺乏抗震设计,存在着严重的安全隐患。应用外套预制装配技术对上海市某6层砌体结构进行加固改造,并应用结构分析软件SAP2000进行砌体结构弹塑性分析。通过加固前后结构地震响应分析,结果表明:相比于原结构,加固后砌体部分承担基底剪力小震和大震分别减小51.21%和13.70%,原砌体结构承担剪力得到有效削弱。原结构小震层间位移角大于1/2 000,可能发生轻微破坏,大震层间位移角大于1/250,存在倒塌风险。加固后砌体结构抗震性能得到明显改善,小震层间位移角小于1/3 500,大震层间位移角小于1/600,小震下可保证结构基本完好,大震下不致结构发生严重破坏,有效地提高了原结构抗震能力。加固后砌体结构峰值位移平均降幅在40%~90%之间,在小震作用下,加速度减小,而大震作用下则反向增大。 相似文献
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Reinforced concrete (RC) frame structures are one of the mostly common used structural systems, and their seismic performance is largely determined by the performance of columns and beams. This paper describes horizontal cyclic loading tests often column and three beam specimens, some of which were designed according to the current seismic design code and others were designed according to the early non-seismic Chinese design code, aiming at reporting the behavior of the damaged or collapsed RC frame strctures observed during the Wenchuan earthquake. The effects of axial load ratio,shear span ratio, and transverse and longitudinal reinforcement ratio on hysteresis behavior, ductility and damage progress were incorporated in the experimental study. Test results indicate that the non-seismically designed columns show premature shear failure, and yield larger maximum residual crack widths and more concrete spalling than the seismically designed columns. In addition, longitudinal steel reinforcement rebars were severely buckled. The axial load ratio and shear span ratio proved to be the most important factors affecting the ductility, crack opening width and closing ability, while the longitudinal reinforcement ratio had only a minor effect on column ductility, but exhibited more influence on beam ductility. Finally, the transverse reinforcement ratio did not influence the maximum residual crack width and closing ability of the seismically designed columns. 相似文献
12.
Tariq M. Nahhas 《地震工程与工程振动(英文版)》2011,10(1):99-113
This paper presents a comparison of the seismic forces generated from a Modal Response Spectrum Analysis (MRSA) by applying the provisions of two building codes, the 1997 Uniform Building Code (UBC) and the 2000-2009 International Building Code (IBC), to the most common ordinary residential buildings of standard occupancy. Considering IBC as the state of the art benchmark code, the primary concern is the safety of buildings designed using the UBC as compared to those designed using the IBC. A sample of four buildings with different layouts and heights was used for this comparison. Each of these buildings was assumed to be located at four different geographical sample locations arbitrarily selected to represent various earthquake zones on a seismic map of the USA, and was subjected to code-compliant response spectrum analyses for all sample locations and for five different soil types at each location. Response spectrum analysis was performed using the ETABS software package. For all the cases investigated, the UBC was found to be significantly more conservative than the IBC. The UBC design response spectra have higher spectral accelerations, and as a result, the response spectrum analysis provided a much higher base shear and moment in the structural members as compared to the IBC. The conclusion is that ordinary office and residential buildings designed using UBC 1997 are considered to be overdesigned, and therefore they are quite safe even according to the IBC provisions. 相似文献
13.
Yield frequency spectra and seismic design of code‐compatible RC structures: an illustrative example 
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下载免费PDF全文 The seismic design of an eight‐story reinforced concrete space frame building is undertaken using a yield frequency spectra (YFS) performance‐based approach. YFS offer a visual representation of the entire range of a system's performance in terms of the mean annual frequency (MAF) of exceeding arbitrary global ductility or displacement levels versus the base shear strength. As such, the YFS framework can establish the required base shear and corresponding first‐mode period to satisfy arbitrary performance objectives for any structure that may be approximated by a single‐degree‐of‐freedom system with given yield displacement and capacity curve shape. For the eight‐story case study building, deformation checking is the governing limit state. A conventional code‐based design was performed using seismic intensities tied to the desired MAF for safety checking. Then, the YFS‐based approach was employed to redesign the resulting structure working backwards from the desired MAF of response (rather than intensity) to estimate an appropriate value of seismic intensity for use within a typical engineering design process. For this high‐seismicity and high‐importance midrise building, a stiffer system with higher base shear strength was thus derived. Moreover, performance assessment via incremental dynamic analysis showed that while the code‐design did not meet the required performance objective, the YFS‐based redesign needed only pushover analysis results to offer a near‐optimal design outcome. The rapid convergence of the method in a single design/analysis iteration emphasized its efficiency and practicability as a design aid for practical application. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
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2020年6月交通运输部发布了新版《公路桥梁抗震设计规范》(JTG/T 2231-01-2020)(简称"《公规》")。本文比较了现行《铁路工程抗震设计规范》(GB 50111-2006)(2009年版)(以下简称"《铁规》")与《公规》的抗震设计相关内容,并分别采用两本规范对25m墩高(D类)、35m墩高(C类)和40m墩高(B类)简支梁进行抗震设计,比较二者地震力和配筋设计结果差异。结果表明:《公规》和《铁规》的抗震设计框架和内容基本一致,在具体规定上如E2或罕遇地震设计最大加速度响应值以及桥墩强度和延性验算方法等方面不同;D类桥梁《铁规》地震力明显大于《公规》,C类和B类桥梁《铁规》和《公规》地震力相当;地震力相同时,《铁规》配筋率计算值大于《公规》,因《铁规》配筋设计基于容许应力法,而《公规》基于极限状态法。 相似文献
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The next generation of seismic design codes, especially those adopting the framework of performance‐based design, will include the option of design based on displacements rather than forces. For direct displacement‐based design using the substitute structure approach, the spectral ordinates of displacement need to be specified for a wide range of response periods and for several levels of damping. The code displacement spectra for damping values higher than the nominal value of 5% of critical will generally be obtained, as is the case in Eurocode 8 and other design codes, by applying scaling factors to the 5% damped ordinates. These scaling factors are defined as functions of the damping ratio and, in some cases, the response period, but are independent of the nature of the expected ground shaking. Using both predictive equations for spectral ordinates at several damping levels and stochastic simulations, it is shown that the scaling factors for different damping levels vary with magnitude and distance, reflecting a dependence of the scaling on the duration of shaking that increases with the damping ratio. The options for incorporating the influence of this factor into design code specifications of displacement response spectra are discussed. Copyright © 2004 John Wiley & Sons, Ltd. 相似文献
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根据我国建筑抗震设计规范中场地的分类原则,确定日本KiK-net中台站的场地类别。运用SHAKE2000和LSSRLI-1对不同类别场地的峰值加速度、反应谱、剪应变等进行计算,给出Ⅰ~Ⅳ类场地的计算结果,并将计算结果进行汇总后进行对比分析,得到不同场地条件下SHAKE2000和LSSRLI-1计算结果的差异以及计算结果与实测记录之间的差别。研究表明,土的动模量比、阻尼比的非线性以及场地类型对计算结果影响较大,Ⅰ、Ⅱ类场地中大多数情况下SHAKE2000和LSSRLI-1计算结果相差不大;Ⅲ、Ⅳ类场地中多数情况下SHAKE2000和LSSRLI-1计算结果相差不大。以实测记录为基准,SHAKE2000结果好于LSSRLI-1计算结果,特别是对于Ⅲ、Ⅳ类场地中,土体为强非线性工况而言,SHAKE2000结果要明显好于LSSRLI-1计算结果。初步分析表明,SHAKE2000与LSSRLI-1计算结果差异来自于计算剪应变的不同。 相似文献
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The seismic response of elasto‐plastic structures to both recorded and generated accelerograms is characterized by a large scattering of the results, even for accelerograms with similar peak ground acceleration values and frequency content. According to current code recommendations a design value of the seismic response of an elasto‐plastic structure can be computed as the mean of the responses to a certain number of spectrum‐fitting generated accelerograms. A more effective probabilistic approach is presented herein. It allows the analyst to calculate a design value of the seismic response characterized by a predefined non‐exceedance probability using a limited number of generated accelerograms. The results of the performed analyses are presented in diagrams that can be used for structural design applications. The applicability of the proposed method is demonstrated in the case of an elasto‐plastic structural system and the results are compared with those obtained applying current code recommendations. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献