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车辆偏载作用下配筋率对Y形墩破坏模式影响研究OA

Study on Effect of Reinforcement Ratio on Failure Mode of Y-Shaped Pier under Vehicle Eccentric Load

中文摘要英文摘要

为构建城市立体交通体系,减少桥下空间占用,大悬臂-Y形墩体系作为一种城市高架桥梁下部结构,其应用需求逐年增加,但针对其在车辆偏载下的配筋率相关研究较少.该文依托浙江省嘉兴市某快速路建设项目,基于工程实例,利用Abaqus建立了1∶5缩尺有限元模型,各模型Y形墩的配筋率分别为0.42%、1.17%、1.69%、2.29%,其中配筋率0.42%低于《公路钢筋混凝土及预应力混凝土桥涵设计规范》(JTG 3362-2018)规定的最小配筋率(0.5%).通过对上述4个模型进行车辆偏载作用下的数值模拟,研究Y形墩的破坏模式.结果表明:① 车辆偏载作用下,配筋率由0.42%提升至2.29%,墩柱抗裂性能没有显著提升,各模型Y形转折区的混凝土开裂荷载均为64.8 kN;② 随着配筋率的增加,混凝土压溃位置由受压侧腰部转折区向受压侧分叉处移动;③ 配筋率由1.69%提升至2.29%时,墩柱承载力提升显著,增幅约为29.85%.

To construct urban three-dimensional transportation systems and reduce space occupation under bridges,the large cantilever-Y-shaped pier system was applied as a substructure of urban viaducts,with its application demand increasing year by year.However,related research on its reinforcement ratio under vehicle eccentric load has been rarely conducted.Based on an engineering case of an expressway construction project in Jiaxing City,Zhejiang Province,a 1∶5 scaled finite element model was established using Abaqus.The reinforcement ratios of Y-shaped piers in four models were set to 0.42%,1.17%,1.69%,and 2.29%,respectively.Among them,the reinforcement ratio of 0.42%was lower than the minimum reinforcement ratio(0.5%)stipulated in the Specifications for Design of Highway Reinforced Concrete and Prestressed Concrete Bridges and Culverts(JTG 3362-2018).To study the failure mode of the Y-shaped pier,numerical simulations were conducted on the above four models under vehicle eccentric load.The results indicate that:① Under vehicle eccentric load,when the reinforcement ratio increases from 0.42%to 2.29%,the crack resistance of the pier column is not significantly improved,and the concrete cracking load at the Y-shaped turning area of each model is 64.8 kN;② with the increase in reinforcement ratio,the concrete crushing location moves from the turning area at the waist on the compression side to the bifurcation on the compression side;③ when the reinforcement ratio increases from 1.69%to 2.29%,the bearing capacity of the pier column is significantly improved,with an increase of approximately 29.85%.

李鑫锋;林光毅;夏浩;李珉;彭卫兵

浙江交工集团股份有限公司,浙江 杭州 310051浙江数智交院科技股份有限公司,浙江 杭州 318000浙江交工集团股份有限公司,浙江 杭州 310051浙江工业大学 土木工程学院,浙江 杭州 310023浙江工业大学 土木工程学院,浙江 杭州 310023

交通工程

桥梁安全与事故Y形墩车辆偏载破坏模式开裂荷载极限承载能力有限元分析

bridge safety and accidentY-shaped piervehicle eccentric loadfailure modecracking loadultimate bearing capacityfinite element analysis

《中外公路》 2026 (2)

151-159,9

国家自然科学基金资助项目(编号:52278277)

10.14048/j.issn.1671-2579.2026.02.017

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