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密拼钢筋混凝土叠合板受弯性能的数值模拟分析

Numerical Simulation Study on the Flexural Performance of Tightly Joint Reinforced Concrete Composite Slabs

  • 摘要: 密拼式拼缝的受力性能直接关系到叠合板结构的安全性,但目前其构造参数对叠合板受弯性能的影响规律与内在机理尚不明确。为此,本研究系统探究了拼缝构造参数对密拼钢筋混凝土叠合板受弯性能的影响机理与规律。基于ABAQUS有限元分析软件,建立了该结构的精细化有限元模型。通过将数值模拟结果与试验的荷载-位移曲线、裂缝发展模式及破坏形态进行对比,验证了该模型在预测叠合板受弯性能方面的准确性与可靠性。并在此模型基础上进行参数分析,结果表明:附加钢筋直径由8 mm增至10 mm时,极限荷载提高23.4%,但继续增至12 mm时提升不明显;桁架钢筋到拼缝的距离由300 mm减至100 mm,极限荷载和极限位移分别提升16.0%和12.6%;增大新老混凝土叠合面摩擦系数亦可提升整体刚度与承载力。在实际工程中,通过适当提高拼缝区附加钢筋配筋量、布置桁架钢筋使其更靠近拼缝、保证叠合面粗糙度等构造措施,可显著改善密拼叠合板的受弯性能。

     

    Abstract: The mechanical performance of tightly jointed seams is directly related to the safety of composite slab structures, but the mechanism by which their construction parameters influence the flexural behavior of composite slabs remains unclear. Therefore, this study aims to systematically investigate the influence mechanism and patterns of joint configuration parameters on the flexural behavior of tightly jointed reinforced concrete composite slabs. A refined finite element model of the structure was established using the ABAQUS finite element analysis software. By comparing the numerical simulation results with experimental load-displacement curves, crack development patterns, and failure modes, the accuracy and reliability of the model in predicting the flexural performance of composite slabs were verified. Based on this validated model, a parametric analysis was conducted. The results show that when the diameter of the additional reinforcement is increased from 8 mm to 10 mm, the ultimate load increases by 23.4%; however, a further increase to 12 mm does not result in a significant improvement. Reducing the distance between the truss bars and the joint from 300 mm to 100 mm increases the ultimate load and ultimate displacement by 16.0% and 12.6%, respectively. Increasing the friction coefficient at the interface between new and old concrete also enhances the overall stiffness and load-bearing capacity. In practical engineering, the flexural performance of tightly jointed composite slabs can be significantly improved by appropriately increasing the reinforcement in the joint region, arranging truss bars closer to the joint, and ensuring sufficient surface roughness at the composite interface.

     

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