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为研究横隔板对钢-混组合连续刚构桥动力性能的影响规律,文章以跨径为(57.8 m+3×100 m+57.8 m)的某高速公路钢-混组合连续刚构桥为工程背景,采用MIDAS有限元分析软件建立了该桥的有限元模型,分析了横隔板数量对钢-混组合连续刚构桥自振周期的影响.研究结果表明:在动荷载作用下,纵桥向和横桥向的位移变形大于... 相似文献
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过去20年里,试验模拟分析和有限元模型修正技术在机械工程和航空航天工程中得到有效应用,它们是结构健康识别的有效方法,为正常工作和突发事件下结构损伤的检测、评估及量化提供了基础资料。由于结构种类、材料属性、边界条件及损伤模型的多样性,健康检测技术在地震作用下土木工程中的应用研究还不够完善。为了设计震后康复时间间隔,需要研究结构损伤分布和承载力,费用高且耗时长。将基于损伤鉴定技术的振动应用于依据抗震承载力方法设计的高韧性结构中,可提高这些方法的可行性、可靠性及效率。通过意大利伊斯普拉节点研究中心的伪动力往复试验,基于振动测量的有限元模型修正技术可用于检测,评估,量化遭受持续地震破坏的高韧性钢-混组合框架的结构损伤。针对不同的建模方案,通过3个损伤水平对不同的有限元结构模型进行修正,可全面描述和量化梁柱节点的逐步退化性质,以用于耗散地震能量的设计。 相似文献
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由于钢-混组合桥梁导热系数存在显著差异,环境温度场对钢-混组合桥梁的结构行为影响较大。对于高海拔地区的钢-混组合桥梁,环境温度效应可能影响列车行驶安全与舒适性。文章以藏区某铁路双线简支钢箱-混凝土组合梁桥为研究对象,通过固-热耦合数值仿真分析研究其环境温度场以及温致效应,并基于车-桥耦合振动分析理论,进行温致效应下的钢-混组合桥梁列车走行性数值仿真分析。研究结果表明:温度效应引起的轨道竖向变形比轨道横向变形更大,两侧轨道的横向变形差异较竖向变形差异更大;温度效应对车辆运行的安全性、组合梁的动力性能影响不大,对车辆运行的平稳性有一定影响。 相似文献
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考虑两端铰接的任意截面钢-混组合长柱在偏心荷载作用下的附加弯矩影响(二阶效应),提出一套可对长柱从加载到最终破坏全过程分析的数值模拟程序。该方法采用了一种新的纤维元理论来计算长柱的二阶效应和受力变形特性。根据该算法编制出相应的计算机程序,应用计算机程序对一配有工字型钢的矩形截面长柱进行计算分析,验证该方法的正确性和有效性。 相似文献
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对钢-混组合结构栓钉剪力连接件的性能进行了介绍.通过分析总结相关文献发现,影响抗剪承载力的主要因素为栓钉屈服强度fy、其杆轴直径D及混凝土强度大小;并总结了国内外文献中关于栓钉剪力连接件的极限承载力计算公式,为研究与设计人员提供参考. 相似文献
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依据国内外相关规范,采用有限元的方法计算了钢—混凝土组合梁桥桥面板活载的受力特性,并通过对计算结果的分析比较,得出了一些有意义的结论,为钢—混凝土组合梁桥桥面板的设计提供了参考借鉴。 相似文献
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结合古浪河大桥的工程概况,确定了总体施工方案,从脚手架的施工、上下滑道的布置、横移梁、落梁的施工等方面介绍了结合梁跨既有铁路线架设要点,阐述了桥面板的施工技术,对确保既有线铁路安全经营具有重要意义。 相似文献
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钢-混凝土组合结构桥梁研究新进展 总被引:31,自引:0,他引:31
钢-混凝土组合结构桥梁近年来在我国得到了迅速的发展。在传统桥梁结构形式的基础上,发展多种新型组合结构桥梁形式,拓宽组合结构桥梁的应用领域。介绍近年来在钢-混凝土组合结构桥梁方面的最新研究进展,内容包括波形钢腹板组合梁桥、槽型钢-混凝土组合梁桥、钢-混凝土组合刚构桥、双重组合作用连续组合梁桥和大跨斜拉桥组合桥面系。通过对传统结构形式的改进和发展,可充分发挥组合结构桥梁的综合优势,研究结果表明,钢-混凝土组合结构桥梁具有广阔的推广应用前景。 相似文献
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Fatigue behavior and statistical evaluation of the stress category for a steel-concrete composite bridge deck 总被引:1,自引:0,他引:1
The maintenance cost of bridges is rapidly increasing since many existing bridges are deteriorating or reaching their design life all over the world. Moreover, as many long-span bridges are under construction and planning in Korea, research and development on bridge decks with high load-resistance capacity as well as high fatigue strength has become a growing concern. This research gives experimental results of the fatigue behavior of a new-type of steel-concrete composite bridge deck being developed under such circumstances. The proposed composite bridge deck consists of corrugated steel plate, welded steel ribs, stud shear connectors, and reinforced concrete filler. Fatigue tests were conducted under a four-point bending test with four different stress ranges in constant amplitude. In order to determine the influence of the concrete filling, fatigue tests on partial steel specimens containing only plain corrugated steel plates were performed in advance. The partial steel specimens and the steel-concrete composite deck specimens both showed fatigue failure in the tension part concerning the fillet welding part between the corrugated steel plate and steel rib. Finally, the stress category of the fillet welding part of each specimen is evaluated based on a statistical approach of Albrecht’s probability model. The research concludes that the fatigue behavior of such steel-concrete composite decks under sagging moment can be estimated based on the classical S-N approach, focusing on steel components. 相似文献
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钢混连续结合梁施工技术 总被引:2,自引:1,他引:1
结合某工程钢混连续结合梁施工实例,介绍了钢混连续结合梁在场地较平坦时钢梁吊装架设及混凝土面板一次现浇的施工方法,通过使用此法,缩短了工期,降低了工程造价,其经济和社会效益显著。 相似文献
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This paper proposes a new type of steel-concrete composite deck, which is composed of orthotropic steel deck (OSD) with T-shaped ribs, concrete plate and studs connecting OSD and concrete plate. The OSD can act as framework for concrete plate and contribute to load bearing capacity at the same time, which could save construction time. Compared with conventional OSD system, this new type of composite bridge deck can also improve fatigue performance.Considering that this type of composite deck is not yet applied in practical engineering and its mechanical performance is not revealed in previous literatures, two full-scale specimens were designed and manufactured in this research. The mechanical performance, particularly, bending capacity in positive and negative region was carefully tested and analyzed. The load-deflection curve, load-slip relation, strain distribution in concrete and steel were obtained. The test results showed that the plastic performance of this kind of composite bridge deck was satisfying and the bending capacity was high. 相似文献
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Huating CHEN Xianwei ZHAN Xiufu ZHU Wenxue ZHANG 《Frontiers of Structural and Civil Engineering》2022,16(10):1336
An innovative composite deck system has recently been proposed for improved structural performance. To study the fatigue behavior of a steel-concrete composite bridge deck, we took a newly-constructed rail-cum-road steel truss bridge as a case study. The transverse stress history of the bridge deck near the main truss under the action of a standard fatigue vehicle was calculated using finite element analysis. Due to the fact that fatigue provision remains unavailable in the governing code of highway concrete bridges in China, a preliminary fatigue evaluation was conducted according to the fib Model Code. The results indicate that flexural failure of the bridge deck in the transverse negative bending moment region is the controlling fatigue failure mode. The fatigue life associated with the fatigue fracture of steel reinforcement is 56 years. However, while the top surface of the bridge deck concrete near the truss cracks after just six years, the bridge deck performs with fatigue cracks during most of its design service life. Although fatigue capacity is acceptable under design situations, overloading or understrength may increase its risk of failure. The method presented in this work can be applied to similar bridges for preliminary fatigue assessment. 相似文献
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槽形钢-混凝土组合梁及其应用前景初探 总被引:1,自引:0,他引:1
提出一种适用于轨道桥梁的新型槽形(U形)钢-混凝土组合下承式桥梁,它是指在槽形截面的钢梁内侧浇筑混凝土,钢板与混凝土通过抗剪连接件组合成整体共同工作。这种结构形式不仅继承了传统混凝土槽形梁结构的特点,而且具有许多自身的优点,钢板可以代替模板,故无需模板或使用较少模板进行施工;结构受拉区外包钢板,既避免了混凝土裂缝暴露,又具有较好的防撞功能,结构的耐久性好。下层钢板在横向和纵向均可以充分发挥抗拉强度,大大简化了构造,减少钢筋绑扎、焊接以及横向预应力张拉的困难。对这种槽形组合梁截面形式的比选进行了初步有限元分析。结果表明,截面各参数对结构受力性能的影响程度不同,其中混凝土底部纵向肋宽度、混凝土翼缘厚度及腹板高度等是较敏感因素;温度和混凝土收缩徐变对结构受力性能的影响也较大。在竖向荷载的作用下钢梁底板和混凝土底板的中面纵向应力沿板宽的分布均表现出一定的剪力滞后现象。还指出关于这种新型组合梁今后值得进一步研究的问题。 相似文献
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正交异性钢桥面板的疲劳问题属于包含多疲劳破坏模式的结构体系疲劳问题。基于这一本质特性,以典型的正交异性钢桥面板结构体系为研究对象,由结构体系的主导疲劳破坏模式出发,提出正交异性钢桥面板结构体系疲劳抗力评估的新方法。以纵肋与顶板焊接细节和纵肋与横隔板交叉构造细节为主要研究对象,设计8个足尺节段模型,主要包括传统纵肋与顶板焊接细节、新型镦边纵肋与顶板焊接细节和纵肋与横隔板交叉构造细节,通过模型试验研究了两类重要构造细节的主导疲劳破坏模式和实际疲劳抗力,在此基础上结合切口应力评估方法探讨正交异性钢桥面板构造细节切口应力S-N曲线方程、结构体系的主导疲劳破坏模式等关键问题。研究结果表明:传统纵肋与顶板焊接细节和新型镦边纵肋与顶板焊接细节的主导疲劳破坏模式均为疲劳裂纹萌生于焊根并沿顶板厚度方向扩展,二者的实际疲劳抗力基本相同;纵肋与横隔板交叉构造细节的疲劳破坏模式为焊趾开裂沿纵肋腹板方向扩展;对于研究对象而言,萌生于纵肋与顶板焊接细节焊根并沿顶板厚度方向扩展的疲劳破坏模式为控制结构体系疲劳抗力的主导疲劳破坏模式。 相似文献