Seismic Behavior of Diaphragm-Through Connections of Concrete-Filled Square Steel Tubular Columns and H-Shaped Steel Beams

Based on the introductions of a type of diaphragm-through connection between concrete-filled square steel tubular columns (CFSSTCs) and H-shaped steel beams,a finite element model of the connection is developed and used to investigate the seismic behavior of the connection.The results of the finite element model are validated by a set of cyclic loading tests.The cyclic loading tests and the finite element analyses indicate that the failure mode of the suggested connections is plastic hinge at the beam with inelastic rotation angle exceeding 0.04 rad.The suggested connections have sufficient strength,plastic deformation and energy dissipation capacity to be used in composite moment frames as beam-to-column rigid connections.

Shake table experimental study of cable-stayed bridges with two different design strategies of H-shaped towers

As one of the main load-carrying components of cable-stayed bridges,bridge towers are typically required to remain elastic even when subjected to severe ground motions with a 2%-3%probability of exceedance in 50 years.To fulfill this special requirement imposed by current seismic design codes,reinforcement ratios in the bridge towers have to be kept significantly higher than if limited ductility behavior of the tower is allowed.In addition,since the foundation capacity is closely related to the moment and shear capacities of the bridge tower,a large increase in bridge construction cost for elastically designed cable-stayed bridge is inevitable.To further investigate the possibility of limited ductility bridge tower design strategies,a new 1/20-scale cable-stayed bridge model with H-shaped bridge towers designed according to strong strut-weak tower column design was tested.The shake table experimental results are compared with a previous strong tower column-weak strut designed full bridge model.A comparison of the results show that ductility design with plastic hinges located on tower columns,i.e.,strong strut-weak tower column design,is another effective seismic design strategy that results in only small residual displacement at the top of the tower column,even under very severe earthquake excitations.

Dynamic performance of cable-stayed bridge tower with multi-stage pendulum mass damper under wind excitations——I:Theory

In this paper, wind-induced vibration control of a single column tower of a cable-stayed bridge with a multi- stage pendulum mass damper （MSPMD） is investigated. Special attention is given to overcoming space limitations for installing the control device in the tower and the effect of varying natural frequency of the towers during construction. First, the finite element model of the bridge during its construction and the basic equation of motion of the MSPMD are introduced. The equation of motion of the bridge with the MSPMD under along-wind excitation is then established. Finally, a numerical simulation and parametric study are conducted to assess the effectiveness of the control system for reducing the wind-induced vibration of the bridge towers during construction. The numerical simulation results show that the MSPMD is practical and effective for reducing the along-wind response of the single column tower, can be installed in a small area of the tower, and complies with the time-variant characteristics of the bridge during its entire construction stage.

Dynamic performance of cable-stayed bridge tower with multi-stage pendulum mass damper under wind excitations—Ⅱ: Experiment

The possibility of using a multi-stage pendulum mass damper （MSPMD） to control wind-induced vibration of a single column tower of a cable-stayed bridge during construction was studied theoretically in part I of this work. In this paper, the performance of the MSPMD for reducing bridge tower vibration is studied experimentally. A MSPMD model and a tower model of the bridge with geometry scaling of 1：100 were designed and manufactured. Calibration of the MSPMD model with different wire lengths is conducted to verify the analytical model of the damper. A series of tests for the uncontrolled freestanding tower, tower with cables, and tower with MSPMD model are then performed under harmonic and white noise excitations. The experimental results show that the responses of the tower model significantly decrease with the installation of the MSPMD model, which demonstrates the effectiveness of the M SPMD to mitigate the vibration of the bridge tower.

双柱悬索拉线塔风致倒塌易损性分析

作为风敏感结构,双柱悬索拉线塔在强风荷载作用下易遭受不同程度的损伤甚至发生倒塌破坏,因此,有必要对其进行风灾易损性分析。为此,本文提出一种双柱悬索拉线塔风致倒塌易损性分析方法。首先,考虑结构参数的不确定性,基于拉丁超立方抽样建立双柱悬索拉线塔不确定性模型,完成所有样本模型的非线性静力推覆分析;然后,利用B-R准则和对数正态分布函数拟合得到双柱悬索拉线塔倒塌易损性曲线;最后,研究风向角和拉线初张力对结构倒塌易损性曲线的影响。研究结果表明:相较于确定性倒塌分析,不确定性倒塌分析能够更好地评估双柱悬索拉线塔的抗风承载能力;风向角对双柱悬索拉线塔的倒塌易损性影响较大,结构的最不利风向角为45°,当基本风速小于56.5 m/s时,结构在任一风向角下的倒塌概率都很小;拉线初张力对结构倒塌临界风速无影响,但对立柱顶点位移易损性曲线影响较大;增大拉线初张力,左右侧立柱的顶点位移易损性曲线均向左移动,且其对背风侧立柱的影响更大。

考虑多重性能水准的特高压双柱悬索拉线塔风灾易损性分析

特高压双柱悬索拉线塔为典型的风敏感结构,其在不同强度风荷载作用下易遭受不同程度的损伤及破坏,针对此类结构的风致损伤评估研究亟待开展。该文提出一种考虑多重性能水准的特高压双柱悬索拉线塔风灾易损性分析方法。首先,开展结构立柱刚性模型的风洞试验,获取立柱的气动三分力系数并模拟得到相应风荷载;进而,定性划分双柱悬索拉线塔的性能水准,并基于Pushover分析给出各性能水准所对应的量化模型;最后,在求得双柱悬索拉线塔概率风灾需求模型的基础上,对其进行风灾易损性分析,并研究风向角对易损性曲线的影响。结果表明:结构主体立柱的气动升力系数CL和气动力矩系数CM在不同工况下均接近于0,气动阻力系数CD则均大于2,且从0°到45°呈递增趋势;基于立柱顶点位移可建立双柱悬索拉线塔的多重性能水准,而由风灾易损性分析可知,双柱悬索拉线塔在正常使用条件下发生各级风致损伤及破坏的概率很小,结构具有良好的抗风性能;风向角对双柱悬索拉线塔风灾易损性影响显著,结构的最不利和最有利风向角分别为90°和0°。

曲面异形“内混凝土外钢”塔柱施工方法研究

曲面异形“内混凝土外钢”斜拉桥主塔结构新颖,桥塔具有构造复杂、造型奇异等特点。桥塔施工面临钢结构吊装节段多、安装精度要求高、混凝土浇筑难度大等诸多难题。文章结合海花岛跨海3#桥工程实例,总结了塔柱施工重难点,研究了主塔总体施工方案及施工工艺措施,包括钢结构拼装及吊装工艺、桥塔安装控制测量等方面,可为同类工程提供参考。

斜拉桥分肢柱式桥塔结构性能分析

以芜湖长江公路二桥为例,对该桥的桥塔设计进行了阐述。针对该桥的分肢柱式桥塔造型,采用有限元软件进行了实体分析。详细分析了桥塔塔柱、齿板锚固索节段、索塔分肢节段、下横梁节段和底座节段的受力性能。计算结果表明,桥塔塔柱应力水平满足规范要求,结构的安全储备良好,分肢柱式桥塔的截面尺寸较为合理。但在最不利荷载工况下,索塔分肢底面、两塔肢之间的横梁和底座顶面均会产生较大的拉应力,需采取一定的加强措施。可考虑增加横向预应力钢束,对局部拉应力改善作用较为明显。最后对类似桥塔的设计中需要注意的地方提出了合理建议。

大底盘塔楼偏置超高层结构分析与设计

某项目为大底盘塔楼偏置的超高层建筑,存在高度超限、扭转不规则、楼板不连续、竖向收进、转换、跃层柱、塔楼偏置等多个不规则项。采用多种程序对其进行了反应谱分析、弹性时程分析、抗震性能分析、弹塑性分析、跃层柱稳定分析、楼板应力分析以及舒适度分析,计算结果可以满足规范要求。针对小偏拉剪力墙、跃层柱、转换柱等关键构件采取有效的加强措施,以保证其在地震作用下具有良好的抗震性能。

歧化与对二甲苯装置优化项目

歧化和对二甲苯装置作为上下游互供料装置,为了实现两套装置的独立性及较强的可操作性,一般都设有独立的芳烃组分分离工艺及设备。本文探讨歧化和对二甲苯装置作为联合装置的设计优化及分离方法。并根据精密的计算与设计实现了工业应用应用,提出可行性建议。

大型塔器在现场立置条件下的气液组合试验设计

本文给出了大型塔器采用立式气液组合试验的前提以及主要的试验参数,包括试验压力、最大液柱高度、最小液柱高度、设计液柱高度的取值。结合某乙烯装置中乙烯塔的设计实例,论证了现场立置条件下的大型塔器采用气液组合试验的优越性:将传统的水压试验改为立式气液组合试验,可有效降低塔器重量和土建基础载荷。

金海特大桥跨磨刀门水道主桥总体设计

金海特大桥跨磨刀门水道主桥采用(58.5+116+3×340+116+58.5)m公铁同层合建四塔斜拉桥。结构体系为刚构连续体系,两中塔塔墩梁固结,边塔处塔梁固结、墩梁分离。为满足公铁同层布置需要,主梁采用了双侧大挑臂式钢箱梁。桥面顶宽49.6 m,挑臂长16 m。桥塔采用四柱式矩形钢塔。桥塔每侧各设13对斜拉索,全桥共设104对,按平行索面扇形布置。主桥整体计算分析表明,全桥整体变形,结构承载力、稳定性均满足规范要求。主梁节段局部分析和钢锚箱局部计算表明主梁细部构造和索塔钢锚箱构造合理,受力满足要求。钢梁、钢塔采用大节段制造,现场拼装方式施工。

斜塔柱施工内力和变形控制研究

索塔施工控制是斜拉桥建造的重要环节,斜塔柱施工过程中的内力和变形控制尤为复杂。文章以倾斜角度较大的钻石形索塔为例,建立了索塔空间有限元模型,对施工过程进行仿真分析,研究不同支撑方式对斜塔柱内力和变形控制的影响,结果表明:主动横撑能消除施工过程中不利附加应力积累,减小内倾变形。研究成果可为同类型索塔的设计和施工提供借鉴和参考。

超高混凝土塔柱C55高性能混凝土防裂技术研究

公铁两用桥梁作为现代交通工程的杰出代表,其建设过程融合了复杂的工程技术和严格的质量要求,旨在满足公路与铁路的双重通行需求,并提升区域间的互联互通效率。大体积混凝土作为桥梁结构中的核心材料,其施工质量对于桥梁的安全性和耐久性具有至关重要的影响。本文以商合杭铁路芜湖长江公铁大桥工程为背景,进行桥塔大体积混凝土冬季施工温控分析研究。首先利用Midas/FEA有限元软件建立塔柱有限元模型,并对塔柱在两种配合比和有无冷却水管条件下的温度场及应力状态进行分析,结果表明,本文中所建立的有限元模型能够准确地预测塔柱在实际浇筑过程中的温度场变化,此研究结果可以为类似混凝土浇筑施工提供参考。

福州某仿古塔式建筑搭接转换结构分析

延福塔是一栋仿古塔式建筑,建筑外立面层层收进,每层框架柱均不连续。每层各柱均较下层内退160mm。结构上采用环状梁衔接上下层柱,上下层柱在转换梁高范围内形成搭接转换。采用YJK及Midas软件对结构进行分析和设计,重点进行了结构抗震性能设计和搭接块节点分析。结果表明,搭接转换形式力学性能安全可靠,合理地解决了建筑立面的收进要求。

某塔楼偏置的大底盘超限高层结构设计

某塔楼为大底盘单塔框架-剪力墙结构,存在扭转不规则、楼板不连续、承载力突变、塔楼偏置等多项不规则,属于规则性超限工程。针对结构的不规则情况,运用基于性能的抗震设计方法,对主体结构及关键部位进行详细的分析,并采取相应措施,保证结构整体指标及抗震性能均满足规范和抗震性能目标的要求。

惠肇东江特大桥主桥设计关键技术

为探究复杂建设环境下的特殊斜拉桥结构受力特性,解决设计难题。文中以东江特大桥为工程背景,通过边跨密索区梁段的特殊设计与全桥施工模拟分析,实现无辅助墩不对称全悬臂施工设计,有效保护了水源保护区和降低了水中高支架施工的风险。对比规范等效静力计算和数值动力模拟分析结果,验证了数值模拟的可靠性,得到防撞力和结构损伤情况,为结构设计提供依据。基于塔柱拉索锚固区精细化仿真分析结果,得到了锚固区受力分布特点,加强了结构设计。研究为同类建设环境下的工程设计提供参考。

简易液柱式湿法烟气脱硫装置的试验研究

介绍了一种简易液柱式湿法烟气脱硫装置 ,对该装置的脱硫特性进行了试验 ,研究分析了一些重要因素对系统脱硫效率的影响变化规律 .结果表明 :当塔内烟气速度小于 3 m/s,液气比为 1 2 L /m3 时 ,系统的脱硫效率在 80 %以上 .整个试验装置的阻力损失小 ,运行可靠 ,有利于装置在工业上的实际应用 .

DJ-5型塔板在丁二烯精馏塔改造中的应用

采用抗堵性能好、分离效率高和处理能力大的DJ-5型塔板(新型固定阀悬挂式降液管塔板)逐一更换了丁二烯精馏塔原浮阀塔板,不仅解决了原塔易堵塞问题,而且在保持塔体不动的情况下,将原27 kt／a的处理能力提高了31.8%,塔顶产品纯度由99.45%提高到99.7%,塔釜丁二烯排放由70%-80%降到50%以下。

常减压蒸馏装置的减压深拔

结合国内外炼油厂减压蒸馏装置的现状及研究动态 ,对减压蒸馏深拔技术的可行性、影响因素以及提高拔出率的途径进行了系统的阐述 。