首页|预应力UHPC-RC无腹筋组合梁足尺模型抗弯试验及极限弯矩计算研究

预应力UHPC-RC无腹筋组合梁足尺模型抗弯试验及极限弯矩计算研究

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为了解预应力UHPC-RC无腹筋组合梁(简称组合梁)的抗弯性能,以 2 座组合梁桥实际工程为背景,分别制作 25m长工字形组合梁及 30m 长箱形组合梁足尺模型进行抗弯试验,研究组合梁在弯曲荷载下的裂缝发展形态、荷载~挠度曲线及不同截面高度应变等.结果表明:2 种组合梁最终受弯破坏时,1条主裂缝快速发展为贯穿弯曲裂缝,组合梁裂缝细密;荷载~挠度曲线较为饱满,刚度折减较普通预应力混凝土梁明显推迟,结构性能更为优良;开裂前组合梁截面受力发展满足平截面假定,出现主裂缝后逐渐不满足平截面假定.为考虑组合梁截面在极限状态不满足平截面假定的情形,基于 UHPC 材料本构关系,提出采用体外预应力筋极限理论推导组合梁极限弯矩计算方法,并将该方法与平截面假定理论计算结果及试验结果进行对比.结果表明:提出的组合梁极限弯矩计算方法较平截面假定理论计算方法能更好地反映结构受力.
Flexural Test on Full-Scale Prestressed UHPC-RC Composite Girder Specimen Without Web Reinforcement and Ultimate Bending Moment Calculation
This paper presents the methods to calculate the flexural performance of the prestressed UHPC-RC composite girder without web reinforcement(the composite girder for short).Two existing composite girder bridges were used as prototypes,based on which mockups of a 25 m-long I-girder bridge and a 30 m-long box girder bridge were prepared for flexural tests,to study the load bearing behavior of the composite girder under bending loads,and the key issues included the crack propagation trend,load-deflection curves and the relationship between the location of cross-section and strain.It is shown that when the two mockups failed,a dominant crack grew to be a through flexural crack,and the cracks in the structure were dense.The load-deflection curves are smooth,the rigidity reduction is significantly delayed compared to conventional prestressed concrete girders,and the load bearing performance of the structure is better.When there are no cracks,the load bearing performance of the composite girder satisfies the plane section assumption,while fails when there appear dominant cracks.Supposing that the cross-section of the composite girder does not satisfy the plane section assumption under ultimate bending moments and considering the constitutive relations of UHPC material,it is suggested to utilize the ultimate theory of external prestressing tendons to derive the method to calculate the ultimate bending moments,and the results were compared with the test results and the caculations following the plane section assumption.The verification reveals that the presented method to calculate the ultimate bending moments reflects the load bearing condition of the structure better than that of the plane section assumption theory.

UHPC-RC composite girderprestressed girder without web reinforcementcrack propagationplane section assumptionultimate bending momentfull-scale model testcalculation method

吴红林、孙向东、季振明、蒋峰、马玉全

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哈尔滨工业大学交通科学与工程学院,黑龙江 哈尔滨 150090

广东省交通规划设计研究院集团股份有限公司,广东 广州 510507

广州大学土木工程学院,广东 广州 510006

UHPC-RC组合梁 预应力无腹筋梁 裂缝发展 平截面假定 极限弯矩 足尺模型试验 计算方法

2021年度交通运输行业重点科技项目

2021-MS1-021

2024

10.20051/j.issn.1003-4722.2024.04.008

桥梁建设
中铁大桥局集团有限公司

桥梁建设

CSTPCD北大核心
影响因子:1.428
ISSN:1003-4722
年,卷(期):2024.54(4)