中高层钢筋混凝土异形柱框架结构弹塑性时程分析

用杆模型编制了钢筋混凝土异形柱框架结构的弹塑性时程分析程序FEANT。采用该程序对一中高层大开间钢筋混凝土异形柱框架结构振动台试验模型进行了计算分析，计算值与试验值吻合较好，能满足工程需要。     

底部矩形柱上部异形柱边框架抗震研究

通过对钢筋混凝土底部矩形柱上部异形柱边框架结构的抗震性能试验研究,分析了该种结构的承载力1风度及其衰减过程、延性、滞回特性和破坏特征。试验表明,这种框架抗震性能良好。     

底部矩形柱上部异形柱框架抗震性能试验研究

通过对底部为矩形柱上部为异形柱框架结构的抗震性能试验研究。分析了该种结构的承载力,刚度及其衰减过程,延性,滞回特性和破坏特征,试验表明,这种框架抗震性能良好。     

摩擦消能支撑钢框架结构的弹塑性地震反应时程分析

本文分析了摩擦消能支撑及框架主体结构弹塑性本构关系，并给出了动力时程分析的计算方法。同时，对六层钢框架模型做了各种工况下的地震反应时程分析。结果表明，摩擦消能支撑钢框架（FEDBF）比抗弯钢框架（MRF）的地震作用明显降低，尤其在强震作用下效果更加明显。     

规则钢筋混凝土异形柱框架结构的抗震性能研究

本文按现行规范及技术规程设计了设防烈度为8度的一个规则的钢筋混凝土异形柱框架,并进行了单向水平地震作用下的空间三维非线性地震反应分析,考查了异形柱框架结构在设防和罕遇地震水准下的整体抗震性能,对结构能否达到抗震设防目标进行了初步评价。结果表明,8度区按规范设计的结构在设防烈度及罕遇烈度地震作用下基本能够达到预期的抗震设防目标。     

异型柱框架地震反应计算分析

用时程分析法和反应谱法对无支撑钢筋混凝土异型柱框架进行了弹性地震反应分析，并对二者计算结果进行了比较。然后用时程分析法对无支撑和不同支撑设置的异型柱框架进行了弹塑性地震反应分析，提出了关于异型柱框架计算和设计的几点建议。     

汶川地震震中某钢筋混凝土框架结构的非线性地震反应分析

2008年5月12日,四川省汶川县发生了里氏8.0级地震,造成了巨大的人员伤亡以及工程结构震害。位于震中映秀镇的漩口中学教学综合楼是按照《建筑抗震设计规范(GB50011-2001)》进行设计的,按7度进行抗震设防。在此次地震中,该建筑破坏严重,工程震害典型。为此,本文考虑了钢筋混凝土与砌体的材料非线性性质,建立了框架填充墙结构的非线性分析模型,进行了非线性有限元时程分析,分析了结构破坏的原因,讨论了填充墙体对结构抗震性能的影响,为该类结构的抗震设计提供了一定的依据。     

若干典型巨型钢框架结构的罕遇地震反应分析

针对若干有代表性的巨型钢框架结构进行了在强震作用下考虑几何非线性的弹塑性时程反应分析，得到了结构的位移、速度、加速度时程响应，给出了结构各层位移包络值、层问位移包络值和塑性铰出现的位置，并讨论了巨型梁柱、地震波等因素对巨型钢框架结构抗震性能的影响。     

钢筋混凝土异形柱框架结构侧向刚度分析

根据试验研究、有限元分析和理论分析结果，提出按壁式框架计算截面高厚比较大的异形柱框架结构的侧向刚度，并考虑了梁、柱剪切变形的影响，分别给出了理论计算公式和D值法公式。对填充墙异形柱框架的侧向刚度，可采用框架侧向刚度与填充墙侧向刚度相叠加的方法。     

新型框架结构弹塑性地震反应的等效线性化方法研究

等效线性化方法是计算结构弹塑性地震反应的实用方法.通过对几种等效线性化方法的比较分析,提出了基于FEMA440 （2005）计算等效刚度和等效阻尼比的等效线性化方法;分别采用静力弹塑性分析方法和等效线性化方法,分析了局部使用高性能纤维增强混凝土新型框架结构的弹塑性地震反应.结果表明,两种方法所得结构的地震反应均比较接近.因此,本文建议的等效线性化方法能够较好地预测新型框架结构的弹塑性地震反应.     

Experimental study on the seismic response of braced reinforced concrete frame with irregular columns

A 15-storey K-braced reinforced concrete model frame with irregular columns, i.e., T-shaped, L-shaped, as well as +-shaped columns, was constructed and tested on the six-degree-of-freedom shaking table at the State Key Laboratory for Disaster Reduction in Civil Engineering in Tongji, China. Two types of earthquake records, El-Centro wave (south-north direction) and Shanghai artificial wave (SHAW) with various peak accelerations and principal-secondary sequences, were input and experimentally studied. Based on the shaking table tests and theoretical analysis, several observations can be made. The failure sequence of the model structure is brace→beam→column→joints, so that the design philosophy for several lines of defense has been achieved. Earthquake waves with different spectrums not only influence the magnitude and distribution of the earthquake force and the storey shear force, but also obviously affect the magnitude of the displacement response. The aftershock seismic response of previously damaged reinforced concrete braced frames with irregular columns possesses the equivalent elastic performance characteristic. Generally speaking, from the aspects of failure features and drift ratio, this type of reinforced concrete structure provides adequate earthquake resistance and can be promoted for use in China.     

Seismic response evaluation of the linked column frame system

The linked column frame (LCF) system is proposed as a seismic load resisting system that uses conventional components to limit seismic damage to relatively easily replaced elements. The LCF features a primary lateral system, denoted the linked column, which is made up of dual columns connected with replaceable links, and a secondary flexible moment frame system with beams having fully restrained connections at one end and simple connections at the other. The linked columns are designed to limit seismic forces and provide energy dissipation via link yielding, while preventing damage to the moment frame under certain earthquake hazard levels. A design procedure is proposed that ensures plastic hinges develop in the links of the linked columns at a significantly lower story drift than when plastic hinges develop in the moment frame beams. The large drift difference helps enable design of this system for two distinct performance states: rapid return to occupancy, where only link damage occurs and relatively simple link replacement is possible, and collapse prevention, where both the links and the beams of the moment frame may be damaged. A series of 3‐story, 6‐story, and 9‐story prototype LCF buildings were designed using the proposed design approach. Nonlinear models were developed for the designs with the link models validated using recent experimental results. The seismic response of these systems was investigated for ground motions representing various seismic hazard levels. Results show that the LCF system not only provides collapse prevention, but also has the capability of limiting economic loss by reducing structural damage and allowing for rapid return to occupancy following earthquakes with shorter return periods. Copyright © 2012 John Wiley & Sons, Ltd.     

Shaking table tests on seismic response of steel braced frames with column uplift

Previous studies have suggested that rocking vibration accompanied by uplift motion might reduce the seismic damage to buildings subjected to severe earthquake motions. This paper reports on the use of shaking table tests and numerical analyses to evaluate and compare the seismic response of base‐plate‐yielding rocking systems with columns allowed to uplift with that of fixed‐base systems. The study is performed using half‐scale three‐storey, 1 × 2 bay braced steel frames with a total height of 5.3 m. Base plates that yield due to column tension were installed at the base of each column. Two types of base plates with different thicknesses are investigated. The earthquake ground motion used for the tests and analyses is the record of the 1940 El Centro NS component with the time scale shortened by a factor of 1/√2. The maximum input acceleration is scaled to examine the structural response at various earthquake intensities. The column base shears in the rocking frames with column uplift are reduced by up to 52% as compared to the fixed‐base frames. Conversely, the maximum roof displacements of the fixed and rocking frames are about the same. It is also noted that the effect of the vertical impact on the column associated with touchdown of the base plate is small because the difference in tensile and compressive forces is primarily due to the self‐limiting tensile force in the column caused by yielding of the base plate. Copyright © 2006 John Wiley & Sons, Ltd.     

钢筋混凝土框架柱的变形能力及基于性能的抗震设计方法

框架柱的变形能力主要取决于轴压比和约束箍筋用量,本文建立了柱塑性铰区配箍特征值λcv,轴压比n及塑性铰极限转动量θplc^u之间的函数关系,即λcv-n-θplc^u关系式,并与柱试验数据进行了对比,计算公式与试验结果在平均意义上吻合很好。文中推导了柱截面λcv-n-μcφ关系式,建立了配箍特征值λcv、轴压比n、柱曲率延性μcφ之间的关系。在本文公式的基础上,讨论了按现行抗震设计规范最小配箍要求的RC框架柱所达到的最大变形能力,同时指出规范的构造要求并不总满足特定的变形要求。文中提出了框架柱的性能设计方程,给出了框架柱在指定性能目标DI下基于性能的抗震设计方法的基本过程。     

带暗柱Z形短柱抗震性能试验研究

提出了带暗的Z形短柱。通过3根Z形短柱抗震性能的试验研究,分析比较了Z形柱在两个工程轴受力方向的承载力、刚度、延性、滞回曲线和破坏特征,分析了暗柱对提高Z形短柱抗震能力的作用。试验表明加设暗柱后可明显提高Z形截面短柱的抗震性能。     

离散单元法在框架结构地震反应分析中的应用

将离散单元法应用于框架结构的地震反应分析,并建立了框架结构的离散单元计算模型。在数值求解过程中,本文采用同步动态松弛法确立与求解结构单元平衡关系,避免了动态松弛法由于路径相关性所造成的误差。本文编制了框架结构地震反应时程分析程序,并以一实际结构为例,进行了时程分析。算例表明,本文所提出的方法简单、有效,为工程结构地震反应分析提供了新的思路与方法。     

高层钢框架-支撑结构二阶非线性随机地震响应分析

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。     

异形柱抗震性能分析

异形柱框架结构是1种新型节能住宅结构,本文利用有限元软件,采用反应谱方法,从异形柱与矩形柱框架结构在地震作用下的变形特性和位移着手,研究2种结构的抗震性能,得出了异形柱的抗震性能好的结论。