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高层钢框架-支撑结构二阶非线性随机地震响应分析 总被引:1,自引:0,他引:1
针对常用的高层钢框架-支撑结构,考虑材料非线性和几何非线性,建立了框架部分、支撑部分的二阶动力分析模型。用等效线性方法对结构进行非线性随机地震响应分析,结合工程算例,论述不同场地土、不同层数、不同支撑情况下,二阶效应对结构地震响应统计量的影响。 相似文献
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针对高层钢筋混凝土框架支撑结构体系,运用结构塑性极限分析原理给出了在水平地震作用下最可能出现的破坏机构及相应的极限荷载半解析度,根据上限定理求出水平地震作用下一榀框架支撑体系各种破坏机构的最小破坏荷载。再根据刚度分配原则,可计算出整个结构不形成机动体系所能承担的最大水平地震作用。 相似文献
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高层框-剪结构空间协同弹塑性地震反应分析 总被引:4,自引:1,他引:3
框架-剪力墙结构是一种较好的抗震结构体系。为验算这类结构在强烈地震作用下的塑性菜性能,需开发简便实用的分析方法和软件。本文用框架门型单元和墙四弹簧单元结合进行高层框-剪结构空间协同/平面弹塑性地震反应分析。这两种单元结合,可较好地反映框-剪结构在地震作用下的性能,且模型相对简单,计算时间少,具有较高的的实用性。 相似文献
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本文提出了基于超级单元的钢框架-混凝土剪力墙结构体系动力特性及地震反应分析的一种方法,该方法考虑了混合结构体系中钢框架部分的受力和变形特点,即节点柔性(半刚性)、梁柱效应(p-δ效应)及P-△效应(以下合称P-Delta效应),推导了考虑三种因素情况下,钢框架的层间侧移刚度及钢框架-混凝土剪力墙结构体系的超级单元刚度矩阵,采用刚度法求解钢框架-混凝土混合结构周期和振型。该方法物理概念清楚,计算简便。 相似文献
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《世界地震工程》2016,(2)
高强钢组合偏心支撑结构是梁柱采用高强钢材,耗能梁段采用普通钢材的新型结构体系。采用ABAQUS有限元软件建立了9个不同层数与钢材强度组合D型偏心支撑框架有限元模型,进行了滞回性能分析。通过与普通钢D型偏心支撑框架结构对比,表明虽然高强钢组合D型偏心支撑的滞回性能略差,但随着结构层数的增加,其延性、耗能能力与普通钢偏心支撑结构的差距逐渐减小,且具有结构承载力高和刚度退化慢的优点,适用于高层结构。同时,由于高强钢构件截面较小,可以大大减少结构用钢量,因此有较高的经济效益。综合各因素考虑,建议在设计9层至14层D型偏心支撑结构时采用高强钢,钢材宜采用Q460。 相似文献
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为研究余震对钢框架-中心支撑结构抗震性能的影响,以钢框架-拉链柱式中心支撑结构和传统钢框架-人字形中心支撑结构为例,基于增量动力分析方法,对2种结构在主余震、主震作用下进行地震易损性分析。对比了2种结构地震易损性差异,根据抗倒塌储备系数评价了2种结构的抗倒塌性能。结果表明:余震会增加结构的地震易损性,其影响程度随着地震动强度的变大而增加;与人字形中心支撑结构相比,拉链柱式中心支撑结构在高强度地震下处于重度损伤和倒塌2种极限状态时的失效概率更低,抗倒塌储备系数更大,抗倒塌性能更优。 相似文献
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耗能段腹板高厚比对Y型偏心支撑钢框架滞回性能影响的试验研究 总被引:1,自引:0,他引:1
Y型偏心支撑钢框架是偏心支撑结构中抗震耗能的结构形式之一,为了研究Y型偏心支撑钢框架中耗能梁段腹板高厚比对结构滞回性能的影响,进行了2榀1/3缩尺Y型偏心支撑钢框架的低周反复荷载试验.本文主要介绍了试验过程,分析了Y型偏心支撑钢框架在循环荷载作用下的破坏机理、滞回性能、延性、刚度退化规律以及耗能能力.试验结果表明:Y型偏心支撑钢框架延性好、耗能能力强,耗能梁段腹板高厚比的改变对Y型偏心支撑钢框架强度、刚度以及耗能能力具有较大的影响.耗能梁段腹板高厚比设计得合理,Y型偏心支撑钢框架侧向刚度较大,可以满足在小震或中震作用下的结构变形要求,在大震作用下提供良好的变形能力和耗散地震能量的功能. 相似文献
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通过有限元软件OpenSees对采用了T型钢锚固型节点的一个两层三跨屈曲约束支撑混凝土框架进行了模拟,并与试验结果对比,来验证模拟结果的准确性。在此基础上,对试验框架的原屈曲约束支撑结构体系进行抗震性能分析。结果表明:有限元分析结果与试验结果吻合良好,OpenSees可以准确的模拟屈曲约束支撑混凝土框架的受力性能;屈曲约束支撑混凝土框架具有良好的耗能性与水平承载力;屈曲约束支撑框架体系具有较好的抗震性能;屈曲约束支撑能够增加结构体系的侧向刚度,有效控制结构变形。 相似文献
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本文利用DRAIN-2D程序对底层带支撑异型柱框架进行了时程分析,并且与无支撑异型柱框架及通高设支撑异型柱框架进行了比较分析,结果表明,笔者提出的底层带支撑异型柱框架是一种良好的结构形式。 相似文献
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屈曲约束支撑的研究进展及其在结构抗震加固中的应用 总被引:5,自引:2,他引:5
本文首先介绍了屈曲约束支撑(BRB)的最新研究进展。屈曲约束支撑在承受拉力和压力的情况下,表现出相同的滞回性能和优良的耗能能力。文章介绍了近些年来发展和应用比较成熟的一些形式的屈曲约束支撑。对于近些年来这种支撑在一些主要抗震地区的应用进行了回顾。对于新建高层钢结构的大量应用案例和已有结构的抗震加固的应用表明,此种支撑的使用前景非常广阔。 相似文献
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A satisfactory ductile performance of moment-resisting reinforced concrete concentric braced frame structures (RC-MRCBFs) is not warranted by only following the provisions proposed in Mexico’s Federal District Code (MFDC-04). The nonlinear behavior of low to medium rise ductile RC-MRCBFs using steel X-bracing susceptible to buckling is evaluated in this study. The height of the studied structures ranges from 4 to 20 stories and they were located for design in the lake-bed zone of Mexico City. The design of RC-MRCBFs was carried out considering variable contribution of the two main lines of defense of the dual system (RC columns and steel braces). In order to observe the principal elements responsible for dissipating the earthquake input energy, yielding mappings for different load-steps were obtained using both nonlinear static and dynamic analyses. Some design parameters currently proposed in MFDC-04 as global ductility capacities, overstrength reduction factors and story drifts corresponding to different limit states were assessed as a function of both the considered shear strength and slenderness ratios for the studied RC-MRCBFs using pushover analyses. Additionally, envelopes of response maxima of dynamic parameters were obtained from the story and global hysteresis curves. Finally, a brief discussion regarding residual drifts, residual drift ratios, mappings of residual deformations in steel braces and residual rotations in RC beams and columns is presented. From the analysis of the obtained results, it is concluded that when a suitable design criterion is considered, good structural behavior of RC-MRCBFs with steel-X bracing can be obtained. It is also observed that the shear strength balance has an impact in the height-wise distribution of residual drifts, and an important “shake-down” effect is obtained for all cases. There is a need to improve design parameters currently proposed in MFDC to promote an adequate seismic performance of RC-MRCBFs.
相似文献13.
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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Esra Mete Güneyisi 《地震工程与结构动力学》2012,41(5):853-874
The present paper investigates the seismic reliability of the application of buckling restrained braces (BRBs) for seismic retrofitting of steel moment resisting framed buildings through fragility analysis. Samples of regular three‐storey and eight‐storey steel moment resisting frames were designed with lateral stiffness insufficient to comply with the code drift limitations imposed for steel moment resisting frame systems in earthquake‐prone regions. The frames were then retrofitted with concentrically chevron conventional braces and BRBs. To obtain robust estimators of the seismic reliability, a database including a wide range of natural earthquake ground motion records with markedly different characteristics was used in the fragility analysis. Nonlinear time history analyses were utilized to analyze the structures subjected to these earthquake records. The improvement of seismic reliability achieved through the use of conventional braces and BRBs was evaluated by comparing the fragility curves of the three‐storey and eight‐storey model frames before and after retrofits, considering the probabilities of four distinct damage states. Moreover, the feasibility of mitigating the seismic response of moment resisting steel structures by using conventional braces and BRBs was determined through seismic risk analysis. The results obtained indicate that both conventional braces and especially BRBs improve significantly the seismic behavior of the original building by increasing the median values of the structural fragility curves and reducing the probabilities of exceedance of each damage state. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
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The paper presents a comparative study of an existing retrofit for a mid-rise steel building using additional stiff steel braced-frames against an alternate retrofit using ADAS (Added Damping and Stiffness) passive energy dissipation devices. The subject building, located near Alameda Park in downtown Mexico City, is a ten-storey office building that was built in the 1950s. The structure was damaged during the 1985 Michoacán Earthquake because of resonant response with the site. The building was later retrofitted using additional braced frames according to the seismic provisions of Mexico's 1987 Federal District Code. The retrofit scheme was planned to take the structure away from resonant responses and to inhibit structural damage. A proposed upgrade using ADAS energy dissipation devices was studied to compare energy dissipation against traditional stiffening using steel braces as retrofit options for mid-rise buildings in Mexico City's lake-bed zone. Different sets of analyses were carried out to compare both alternatives: (a) three-dimensional elastic analyses; (b) limit analyses and; (c) nonlinear dynamic analyses for postulated site ground motions for a Ms=8.1 earthquake. Initial costs of the retrofit schemes were also studied. The comparative studies suggest that a retrofit using ADAS devices would have a better dynamic performance than the one using steel braces. However, the steel bracing retrofit provides more strength and its initial cost of retrofit is less than that of the ADAS retrofit. © 1997 John Wiley & Sons, Ltd. 相似文献
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使用偏心支撑减小不规则高层建筑的扭转振动效应 总被引:7,自引:0,他引:7
郭仕群 《地震工程与工程振动》2005,25(3):76-80
文章对比分析了一个不规则高层钢筋混凝土框-剪结构和在原结构基础上增设偏心支撑后的新结构的抗震性能,比较了它们的自振特性以及层间位移等地震作用效应。针对不规则高层建筑在地震作用下不可避免的扭转振动问题,提出在结构中适当地增设偏心支撑来减小结构的扭转振动效应及其它结构地震反应这种简单可行、经济适用的方法。 相似文献
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设计了12组41种二重钢管防屈曲耗能支撑试件,应用有限元软件ABAQUS对其进行了有限元分析,研究了径厚比、约束比、长细比和边界条件对支撑性能的影响.分析结果表明:二重钢管防屈曲耗能支撑的径厚比取值不大于24、约束比的取值不小于3时,支撑的滞回曲线饱满、稳定;当支撑的长细比增加时,可以通过提高约束比来避免支撑发生整体屈... 相似文献
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The paper is concerned with the seismic design of steel‐braced frames in which the braces are configured in a chevron pattern. According to EuroCode 8 (EC8), the behaviour factor q, which allows for the trade‐off between the strength and ductility, is set at 2.5 for chevron‐braced frames, while 6.5 is assigned for most ductile steel moment‐resisting frames. Strength deterioration in post‐buckling regime varies with the brace's slenderness, but EC8 adopts a unique q value irrespective of the brace slenderness. The study focuses on reevaluation of the q value adequate for the seismic design of chevron‐braced frames. The present EC8 method for the calculation of brace strength supplies significantly different elastic stiffnesses and actual strengths for different values of brace slenderness. A new method to estimate the strength of a chevron brace pair is proposed, in which the yield strength (for the brace in tension) and the post‐buckling strength (for the brace in compression) are considered. The new method ensures an identical elastic stiffness and a similar strength regardless of the brace slenderness. The advantage of the proposed method over the conventional EC8 method is demonstrated for the capacity of the proposed method to control the maximum inter‐storey drift. The q values adequate for the chevron‐braced frames are examined in reference to the maximum inter‐storey drifts sustained by most ductile moment‐resisting frames. When the proposed method is employed for strength calculation, the q value of 3.5 is found to be reasonable. It is notable that the proposed method does not require larger cross‐sections for the braces compared to the cross‐sections required for the present EC8 method. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献
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This paper presents an analytical model for the inelastic response analysis of braced steel structures. A model is first presented for the behaviour of steel struts subjected to cyclic axial load, which combines the analytical formulation of plastic hinge behaviour with empirical formulas developed on the basis of experimental data. The brace is modelled as a pin-ended member, with a plastic hinge located at the midspan. Braces, with other end conditions, are handled using the effective length concept. Step-wise regression analysis is employed, to approximate the plastic conditions for the steel UC section. Verification of the brace model is performed on the basis of quasi-static analyses of individual struts and a one-bay one-storey X-braced steel frame. The comparison of analytical and experimental data has confirmed that the proposed brace model is able to accurately simulate the cyclic inelastic behaviour of steel braces and braced systems. A series of dynamic analyses has been performed on two-storey V- and X-braced frames to study the influence of brace slenderness ratio on the inelastic response, and to look at the redistribution of forces in the post-buckling range of behaviour of CBFs. Recommendations have been made as to the estimation of maximum storey drifts for concentrically-braced steel frames in major seismic event. © 1997 John Wiley & Sons, Ltd. 相似文献