Flexural load-rating of slab-on-girder bridges by nonlinear proxy finite-element analysis

Andrew P. Schanck, W. Davids
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Abstract

ABSTRACT The proxy finite-element analysis (PFEA) technique is significantly extended to improve its utility and its predictions of bridge ultimate capacity are verified. Refinements and extensions to the method include a substantial reduction in up-front computational effort, explicit consideration of the effects of skewness on bridge behavior, and expansion of the technique’s mechanics formulation to include the effects of prestressing. PFEA’s prediction of ultimate flexural capacity is verified by simulating the capacity of a previously conducted, full-scale destructive test of a prestressed concrete girder bridge with good prediction of recorded load-deflection data. Live-load testing (LLT) of five, skewed, reinforced concrete bridges is described. The tested bridges are then load-rated by PFEA, leading to average increase in rating factor exceeding 120%, as compared with an average increase of 34.9% with LLT. This demonstrates that PFEA’s consideration of material nonlinearity leads to larger increases in predicted capacity while retaining the conservative assumptions required by design and analysis codes. Practical usage and implementation of PFEA are addressed, including application to ratings and permitting.
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基于非线性代理有限元分析的板梁桥抗弯承载能力
摘要代理有限元分析(PFEA)技术得到了显著的扩展,以提高其实用性,并验证了其对桥梁极限承载力的预测。该方法的改进和扩展包括大幅减少前期计算工作量,明确考虑斜度对桥梁性能的影响,以及扩展该技术的力学公式以包括预应力的影响。PFEA对极限抗弯承载力的预测通过模拟先前进行的预应力混凝土梁桥全尺寸破坏性试验的承载力进行了验证,并对记录的荷载-挠度数据进行了良好的预测。介绍了五座斜交钢筋混凝土桥梁的活载试验。然后,PFEA对测试桥梁进行额定荷载,导致额定系数的平均增加超过120%,而LLT的平均增加为34.9%。这表明PFEA对材料非线性的考虑导致预测容量的更大增加,同时保留了设计和分析规范所要求的保守假设。PFEA的实际使用和实施,包括评级和许可的应用。
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来源期刊
CiteScore
3.90
自引率
9.50%
发文量
24
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