Approach for analyzing the ultimate strength of concrete filled steel tubular arch bridges with stiffening girder

A convenient approach is proposed for analyzing the ultimate load carrying capacity of concrete filled steel tubular (CFST) arch bridge with stiffening girders. A fiber model beam element is specially used to simulate the stiffening girder and CFST arch rib. The geometric nonlinearity, material nonlinearity, influence of the construction process and the contribution of prestressing reinforcement are all taken into consideration. The accuracy of this method is validated by comparing its results with experimental results. Finally, the ultimate strength of an abnormal CFST arch bridge with stiffening girders is investigated and the effect of construction method is discussed. It is concluded that the construction process has little effect on the ultimate strength of the bridge.

Identification of Connection Flexibility Effects Based on Load Testing of a Steel-Concrete Bridge

In the case of composite girders, an effective cooperation of both parts of the section is influenced by deformability of connectors. Limited flexural stiffness of welded studs, used commonly in bridge structures, does not provide full interaction of a steel beam and a concrete slab. This changes strain distribution in cross-sections of a composite girder and results in redistribution of internal forces in steel and concrete element. In the paper partial interaction index defined on the basis of a neutral axis position, which can be used for verification of steel-concrete interaction in real bridge structures rather than in specimens is proposed. The range of the index value changes, obtained during load testing of a typical steel-concrete composite beam bridge, is presented. The investigation was carried out on a motorway viaduct, consisting of two parallel structures. During the testing values of strains in girders under static and quasi-static loads were measured. The readings from the gauges were used to determine the index, characterizing composite action of the girders. Results of bridge testing under movable load, changing position along the bridge span is presented and obtained in-situ influence functions of strains and index values are commented in the paper.

Longitudinal force in continuously welded rail on long-span tied arch continuous bridge carrying multiple tracks

Considering arch rib, lateral brace, suspender, girder, pier and track position, the model for the interaction between long-span tied arch continuous bridge and multiple tracks was established by using steel-concrete composite section beam element to simulate concrete-filled steel tube(CFST) arch rib, using the beam element with rigid arm to simulate the prestressed concrete girder and using nonlinear bar element to simulate longitudinal constraint between track and bridge. Taking a(77+3×156.8+77) m tied arch continuous bridge with four tracks on the Harbin-Qiqihar Passenger Dedicated Line as an example, the arrangement of continuously welded rail(CWR) was explored. The longitudinal force in CWR on the tied arch continuous bridge, the pier top horizontal force and torque due to the unbalance load case, were analyzed under the action of temperature, vertical live load, train braking and wind load.Studies show that, it can significantly reduce track displacement to set the track expansion devices at main span arch springing on both sides; the track stress due to arch temperature variation can reach 40.8 MPa; the track stress, pier top horizontal force and torque are related to the number of loaded tracks and train running direction, and the bending force applied to unloaded track is close to the loaded track, while the braking force applied to unloaded track is 1/4 to 1/2 of the loaded track; the longitudinal force of track due to the wind load is up to 12.4 MPa, which should be considered.

A Statistical Analysis of the Modulus of Elasticity and Compressive Strength of Concrete C45/55 for Pre-stressed Precast Beams

Random behavior of concrete C45/55 XF2 used for prefabricated pre-stressed bridge beams is described on the basis of evaluating a vast set of measurements. A detailed statistical analysis is carried out on 133 test results of cylinders 150 ~ 300 mm in size. The tests have been running in laboratories of the Klokner Institute. A single worker took all specimens throughout the period, and the subsequent measurements of the static modulus of elasticity and the compressive strength of the concrete were performed. The measurements were made at the age of 28 days after specimens casting, and only one testing machine with the same capping method was used. Suitable theoretical models of division are determined on the basis of tests in good congruence, with the use of Z2 and the Bernstein criterion. A set of concrete compressive strength （carried out on 133 test results of cylinders 150 ~ 300 mm after test of static modulus of elasticity） shows relatively high skewness in this specific case. This cause that limited beta distribution is better than generally recommended theoretical distribution for strength the normal or lognormal. The modulus of elasticity is not significantly affected due to skewness because the design value is based on mean value.

Inspection and Assessment of Highway Bridges in Jordan along the Desert Highway: A Case Study

Bridges, especially highway bridges, are a key factor in nations’ development and flourish. Thus, great care should be taken to maintain and inspect their safety and serviceability. An immediate repair will prevent the loss of life and vehicles damage while crossing underpass and overpassing the heavy deteriorated bridges. Reinforced or pre-stressed concrete bridge girders become structurally deficient because of severed reasons including, increasing in the load requirements, corrosion of pre-stressing strands or reinforcement bars and collision of over-height trucks with the bulb of the concrete girders. The purpose of this case study is to evaluate and assess the damages of the highway bridges in Jordan. Since there is no mandatory program in Jordan for inspection of bridges and evaluating their conditions, this paper presents an inspection and assessment of two highway bridges along the desert highway which is the essential nerve connecting Jordan cities, and it also serves as an international road between many middle east countries. These two Bridges have never been investigated or checked since their construction in the late 1980s. The study results showed that the main factor causing the deterioration of these bridges is the collision of the over-height trucks with their elements. Relying on the collected data, solutions and repair methods were introduced to rehabilitate these bridges and assure their structural safety.

重载铁路桥梁体外预应力筋加固性能研究

运营提载会导致重载铁路桥梁损伤累积和刚度退化加剧,对重载铁路预应力混凝土桥梁进行加固可以改善桥梁的受力状况,提高桥梁承载能力。为了研究重载铁路桥梁体外预应力筋加固的性能,分别制作重载铁路24 m超低高度预应力混凝土梁的未加固足尺试验模型与体外预应力筋加固足尺试验模型,并开展200万次疲劳试验与疲劳后静力试验。建立未加固预应力混凝土梁与体外预应力筋加固预应力混凝土梁的精细化有限元模型,通过试验与有限元分析,研究加固前后重载铁路预应力混凝土梁的静力与疲劳性能,揭示加固前后梁体挠度和应力变化规律,并分析不同轴重列车作用下加固预应力混凝土梁的力学性能。研究结果表明:重载铁路桥梁外加预应力筋的加固效果良好,疲劳试验中加固梁刚度退化幅度、跨中挠度、梁内预应力筋应力、梁底及下翼缘混凝土应力显著比未加固梁的小;在33 t轴重列车与1.2倍中等荷载(ZH)轴重作用下,外加预应力筋加固的24 m超低高度预应力混凝土梁的适应性良好,预应力混凝土梁挠度与应力响应均符合规范要求。研究结果可为重载铁路桥梁的设计、养护、维护与加固提供基础与参考。

横向贯通式中低速磁浮一体轨道梁钢-混结合部试验研究

为解决中低速磁浮分离式轨道梁存在的养护难、构件多,以及无法考虑F轨刚度贡献等问题,提出一种横向贯通式梁轨一体轨道梁结构,针对其钢-混结合部的静力性能开展有限元分析和足尺模型试验研究,并对关键设计参数进行参数分析。结果表明,在5倍设计荷载内,钢-混结合部基本处于弹性状态,承载力满足设计要求,且具备较高富裕量;竖向荷载主要通过钢板承压作用传递至混凝土梁体,焊钉对竖向荷载的传递作用较小;设计参数分析表明,适量提高钢连接件钢板厚度有利于竖向荷载的平顺传递。研究结果可以为梁轨一体轨道梁设计提供参考。

钢-混凝土组合简支桥面连续结构横向应力分析

针对钢-混组合简支梁桥的桥面连续结构开裂等病害,围绕桥面连接板的横桥向应力问题,采用线弹性理论和板的偏微分方程进行分析,得出了桥面连接板挠度和应力的分布函数,建立非线性有限元模型,并进行实桥荷载试验.通过比较理论解、有限元解和实测试验结果,证实了理论解和有限元的有效性.根据得到的分布函数,发现横桥向和纵桥向上的最大拉应力出现在钢梁端部位置的连接板的上缘.此外,还分析了连接板区域尺寸变化对横桥向应力峰值的影响,包括纵梁端部距支座的长度、纵梁的间距以及连接板区域整体尺寸变化.结果表明:较小的纵梁间距和较长的纵梁端部与支撑之间的距离会导致连接板中的横向拉应力峰值增加,并提高横向拉应力在总应力中的占比,从而导致桥面连接板早于设计荷载开裂.因此对于纵梁间距较小、梁端长度较长的钢-混组合简支梁桥桥面连续结构,仅计算其纵桥向受力性能会导致计算结果偏危险,建议按照本文方法考虑横桥向应力对桥面连接板的影响.

车辆荷载作用下钢-混凝土组合梁疲劳应力分析

【目的】随着桥梁服役期延长和车辆荷载增加等多种因素的影响,结构承载力会变得越来越弱,疲劳寿命不断降低,最终可能导致低应力疲劳破坏。因此有必要对车辆荷载下拱桥钢混组合梁的疲劳细节应力进行研究。【方法】采用数值模拟的方法,利用Midas FEA NX软件建立3个标准长度的三维实体精细有限元模型,分析钢混组合梁易损疲劳关键点的位置,并研究车辆荷载横向最不利加载位置和纵向加载下的疲劳细节应力变化规律。【结果】结果表明,组合梁次横梁与中纵梁交点处有三处疲劳关键点;靠近桥梁中线位置是车辆荷载下钢梁疲劳最不利的横向加载位置;四种不同标准的纵向车辆加载时,三个疲劳关键点均出现两次应力峰值,且最大应力幅值均低于常幅疲劳强度的极限值。【结论】研究成果可为钢-混凝土组合梁试验和相关研究提供参考。

挪威贝特斯塔德大桥钢箱梁吊装施工技术

贝特斯塔德大桥为挪威新建地方公路Fv.17/720(迪雷斯塔德至马尔姆项目)的一部分,位于挪威中部斯泰恩谢尔市,跨越贝斯塔德峡湾。该桥上部结构为钢混凝土叠合梁桥,全长580m,桥宽11m,共6跨,主跨为112m×2,建成时,为中国施工企业建造的最大跨度钢箱混凝土叠合梁桥,基础采用钢管外壳钢筋混凝土斜桩,水中承台采用薄壁圆角承台,墩柱采用实心钢筋混凝土。

曲线条件大跨度拱加劲连续梁设计

贵南高铁二塘双线特大桥采用90m+180m+90m拱加劲连续梁结构。大桥位于曲线上,梁体采用分段直线布置,悬灌施工;主拱采用哑铃形钢管混凝土拱肋,钢管直径1 m,拱肋全高3 m;采用整束挤压钢绞线吊杆,全桥拱设置36组吊杆;纵向活动主墩通过构造措施,形成半刚构结构体系,限制部分梁体问题伸缩变形;大桥采用先悬灌主梁,后在主梁上搭设支架原位拼装拱肋方式施工。经论文研究计算结果表明,该桥刚度、受力等均满足规范要求。

温度变化对CPⅢ平面测量结果的影响

目前我国高速铁路建设里程已达3万余公里,在全球首屈一指。在高铁建设过程中,轨道控制网(CPⅢ)测量是一项必不可少的工作。某高铁CPⅢ建网测量过程中,相同点位搭接时两次测量结果坐标较差较大,不满足规范搭接要求,需进行外业补测。本文对搭接不成功处的数据进行了分析,认为两次测量温差较大可能是导致搭接不成功的原因之一,温度变化会对CPⅢ测量结果产生影响。同时,梁体宽度确定时引入混凝土膨胀系数计算得到的梁体宽度变化值与实测值互差较小,均未超过0.7 mm,验证了本文的观点。根据气温变化调整补测时间后,数据成果满足规范要求。最后通过定量分析得出,若将梁体宽度变化阈值设置为±2 mm,梁体宽度为9.25 m时,两次测量温差不应超过-21.6℃~21.6℃;梁体宽度为12.20 m时,两次测量温差不应超过-16.4℃~16.4℃。

翼缘尺寸对地聚物混凝土T形梁抗弯性能的影响

通过对5根不同翼缘尺寸的地聚物混凝土T形梁和1根普通混凝土T形梁进行四点弯曲试验,研究了翼缘宽度和厚度对地聚物混凝土T形梁抗弯性能的影响,以及与普通混凝土T形梁的差异。研究结果表明:地聚物混凝土T形梁的抗弯极限荷载、屈服荷载、裂缝行为及失效模式与普通混凝土T形梁相似,且延性更优,但其跨中受拉纵筋应变较大,刚度、开裂荷载和最大裂缝宽度限值下的承载力较低。随着翼缘宽度从200 mm增大到500 mm,地聚物混凝土T形梁的刚度、屈服荷载、抗弯极限荷载、延性和在最大裂缝宽度限值下的承载力均增大,跨中受拉纵筋应变减小,开裂荷载无明显变化,但越宽的翼缘宽度能有效承担荷载的也只是靠近腹板的一部分宽度。增大翼缘厚度对地聚物混凝土T形梁抗弯性能的影响与增大翼缘宽度基本一致,但其对最大裂缝宽度限值下的承载力提高效果显著。规范GB 50010—2010和ACI 318—19的正截面受弯承载力设计公式适用地聚物混凝土T形梁,GB 50010—2010的预测更精确,ACI 318—19的安全储备更高。

基于最小二乘的AHP-CRITIC组合赋权的砼梁桥技术状况指标权重确定

为了得到符合实际情况的桥梁技术状况评估指标权重,将层次分析法(AHP)与CRITIC赋权法相结合,采用基于最小二乘的AHP-CRITIC组合赋权法求解组合权重。该方法选取0.1~0.9标度法替代传统的1~9标度法确定指标主观权重,采用CRITIC法确定指标客观权重,同时引入欧氏距离函数确定桥梁技术状况的主客观综合评估分数,最后利用最小二乘法经过合理运算得出理想的组合权重。结果显示:与其他组合赋权方法所确定的权重进行比较时,采用最小二乘的AHP-CRITIC组合赋权法所确定的指标权重与《公路桥梁技术状况评定标准》(JTG/T H21—2011)中的权重最为相近,同时由于引入了各指标实际评估分数得出组合权重,使得采用最小二乘的AHP-CRITIC组合赋权法所确定的指标权重更加符合实际情况。

UHPC-RC节段组合梁的抗弯性能分析

为研究低预应力度条件下,不同节段接缝的超高性能混凝土-钢筋混凝土(ultra-high performance concrete-reinforced concrete,UHPC-RC)组合梁的抗弯性能,文章基于ABAQUS有限元软件,建立UHPC-RC节段组合梁的基准有限元模型,并利用已有的试验数据验证该模型的合理性。节段接缝分别为平面干接缝、平面胶接缝、齿键干接缝和齿键胶接缝,在基准有限元模型的基础上,进一步研究节段接缝类型对组合梁抗弯性能的影响。研究发现,在四点受弯加载方式下,接缝的几何特征(平面或齿键)对组合梁的极限荷载和开裂荷载影响较小,环氧树脂胶的使用对组合梁的抗弯性能影响较大。

翼缘尺寸对地聚物混凝土T形梁抗剪性能的影响

为探究翼缘尺寸对地聚物混凝土T形梁抗剪性能的影响,对1根普通混凝土和4根不同翼缘尺寸的地聚物混凝土T形梁进行了集中荷载下的抗剪试验;试验获得了T形梁试件的承载力、挠度、钢筋应变、破坏模式及裂缝的开展等相关参数。研究结果表明:地聚物混凝土T形梁具有与普通混凝土T形梁相似的裂缝扩展、破坏模式及抗剪承载力,但其刚度和斜截面开裂荷载较低,跨中纵筋和箍筋的应变较大;将翼缘厚度与截面有效高度比值从0.24增大到0.48时,地聚物混凝土T形梁的刚度增大、跨中纵筋应变减小,抗剪承载力提高了12.7%,地聚物混凝土的归一化抗剪强度增大了25.3%;当翼缘宽度超过两倍腹板宽度时,继续增大能减小跨中纵筋应变,但地聚物混凝土T形梁的刚度、抗剪承载力及地聚物混凝土归一化抗剪强度不再增大。规范ACI 318—19和Eurocode 2的计算结果明显低估了地聚物混凝土T形梁的抗剪承载力,GB 50010—2010较接近试验值。为更好预测地聚物混凝土T形梁的计算抗剪承载力,建议在抗剪承载力计算公式中增加翼缘有效受剪面积所提供的剪力。

基于试验数据库的UHPC梁抗剪承载力计算方法

为研究钢筋UHPC梁的抗剪承载力计算方法,首先,建立了钢筋UHPC梁的抗剪试验数据库;然后,以此为基础对法国NF P18—710规范、瑞士SIA 2052指南、日本JSCE—2006指南、GB 50010—2010规范、JGJ/T 465—2019规范和DBJ 43/T 325—2017规程中的抗剪承载力计算公式进行评估和分析;最后,修正了法国NF P18—710规范的抗剪承载力公式。研究结果表明:各规范公式均不同程度地保守估计了钢筋UHPC梁的抗剪承载力,其中无腹筋UHPC梁的各规范ξ_(m)为1.71~2.71,有腹筋UHPC梁的各规范ξ_(m)为1.52~2.09;国外规范中,法国NF P18—710规范的ξ_(m)分别为1.52~1.71,预测结果误差最小且安全储备较合理;与法国NF P18—710规范预测结果相比,瑞士SIA 2052指南的ξ_(m)为1.70~1.95,预测结果更为保守;日本JSCE—2006指南对于无腹筋UHPC梁预测结果与法国NF P18—710规范相比较为接近,而对于有腹筋梁预测结果偏差较大;国内规范中,GB 50010—2010规范的预测结果最为保守,ξ_(m)为2.13~2.71;JGJ/T 465—2019规范和DBJ 43/T 325—2017规程在GB 50010—2010规范基础上考虑了钢纤维对抗剪承载力的影响,预测精度有所提高。其中,JGJ/T 465—2019规范的ξ_(m)为1.59~1.74,DBJ 43/T 325—2017规程的ξ_(m)为1.66~1.81。基于规范计算模型误差分析,提出了考虑剪跨比影响的UHPC基体抗剪承载力系数和考虑钢纤维影响的钢纤维抗剪承载力系数的取值方法,修正了法国NF P18—710规范的抗剪承载力计算公式,可较好地预测钢筋UHPC梁的抗剪承载力。

某在役重载铁路32 m预应力混凝土T梁后装声屏障适应性分析

随着我国货运铁路重载扩能运输的发展,大轴重、长编组引起的噪声污染日趋严重,后装声屏障已成为减小噪声污染的主要措施之一,但通过扩能改造提升的在役重载铁路桥梁原设计时并未考虑后装声屏障对桥梁结构的影响。为研究在重载铁路桥梁上后装声屏障的适应性,以在役铁路桥梁主梁型32 m简支T梁(专桥-2059A)为研究对象,采用数值模拟与结合现场实测桥梁现状分析的方法,基于不同荷载组合作用,开展T梁加装声屏障后主梁、声屏障与桥梁连接的位置及道砟槽板适应性分析,并对T梁翼缘板及声屏障结构的潜在薄弱位置进行破坏分析。研究结果表明:T梁加装声屏障后,主梁纵向强度受梁体L/8~L/4处抗剪控制,其中梁体L/8处抗剪安全系数为1.70,小于规范要求值1.80;声屏障与桥梁连接位置安全储备不足,其中,在最不利荷载组合作用下,挡砟墙钢筋应力超过容许值1.25倍、裂缝宽度超过容许值0.54 mm;道砟槽板在最不利荷载组合作用下,其钢筋应力安全储备剩余23.2%、裂缝宽度比规范容许值小0.07 mm。综合考虑3种分析,该类型T梁不宜后装声屏障;在最不利情况下,T梁及声屏障结构破坏顺序依次为预埋化学锚栓处、挡砟墙处、声屏障立柱与水平杆交接处、道砟槽板变高度处、翼缘板根部处。

钢混组合梁斜拉桥非对称张拉施工控制的拉索索力统计敏感性分析

针对非对称张拉施工斜拉桥存在的主梁和桥塔线形控制难题,以某大跨度钢混组合梁斜拉桥施工控制为例,开展了拉索索力统计敏感性分析研究。以斜拉索索力为设计参数,综合采用均匀试验和正交试验设计方法以及多元线性回归和极差分析显著性检验方法,对成桥和施工阶段主梁和桥塔截面的内力、位移进行统计敏感性分析。结果表明:提出的索力统计敏感性分析方法可准确获得成桥和施工阶段的敏感性索力参数;对于成桥阶段,S10、MS10、S9号斜拉索索力为结构线形的敏感性参数;非对称张拉施工时,S10、MS10、S9、MS9、S8、MS8、S5、MS5号斜拉索索力为影响主梁和塔顶截面位移的敏感性参数;若采用对称张拉施工,S10、MS10、S8、MS8、S9、MS9、S7、MS7号斜拉索索力则为影响主梁和塔顶截面位移的敏感性参数。

碳纤维格栅网-UHPC 增强RC 连续梁 负弯矩区裂缝性能研究

为研究碳纤维格栅网-UHPC(Ultra-High Performance Concrete)增强RC(Reinforced Concrete)连续梁负弯矩处的抗裂性能,设计7根配置不同的UHPC及碳纤维格栅网的试验梁,进行五点弯曲加载试验,分析碳纤维格栅网和UHPC的掺入、碳纤维格栅的网格尺寸、格栅的层数以及UHPC的铺设厚度等参数对负弯矩区开裂荷载和裂缝性能的影响,提出了适合碳纤维格栅网-UHPC增强的钢筋混凝土梁平均裂缝间距、裂缝宽度计算公式。试验结果表明:对照组试验梁的裂缝呈细且密的特点,有别于普通RC梁的裂缝少,宽度大;与普通RC梁相比,单独设置碳纤维格栅网、UHPC增强的试验梁负弯矩区段的开裂荷载分别提升了28.6%、85.7%,同时设置碳纤维格栅网和UHPC增强的4个试验梁分别提升了114.3%、128.6%、142.9%、171.4%;碳纤维格栅网格尺寸的减小、碳纤维格栅层数的增加、UHPC铺设厚度的增加均可以提高抗裂性能,并且使裂缝数量显著增加,裂缝间距和裂缝宽度明显减小。本文基于现有的国内外规范提出的适合碳纤维格栅网-UHPC联合加固的钢筋混凝土梁的平均裂缝间距、裂缝宽度计算值与试验值吻合较好,验证了计算公式的准确性。