ANALYTICAL PROBABILISTIC RESILIENCE ESTIMATION FOR BRIDGES UNDER NEAR-FAULT EARTHQUAKES

Yang Liu, D. Lu, F. Paolacci
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Abstract

The seismic resilience is becoming an important indicator for the performance assessment of structures and infrastructure systems. This paper proposes a probabilistic approach based on seismic fragility analysis to assess the seismic resilience of steel-concrete composite bridges. By considering the structural and seismic uncertainties in different analysis steps of this approach, the sample generation process for probabilistic demand models is simplified, which largely reduced the computational burden. To deeper understand the seismic resilience and better describe the uncertainties, the estimation interval of the expected resilience is given, while the uncertainties are considered in fragility and propagated to the resilience. This approach is applied to a new typology of steel-concrete composite bridge endowed with concrete cross beams, which has been analyzed within the European Research Project SEQBRI. The results show that this probabilistic approach can largely speed up the process of seismic resilience assessment, while both the aleatory and epistemic uncertainties are considered. Mean-while, the resilience of the bridge is assessed under both the near-fault and the far-field ground motions which aim to study the influence of near-fault earthquakes on the seismic resilience.
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近断层地震作用下桥梁恢复力的分析概率估计
抗震回弹性已成为结构和基础设施系统性能评价的重要指标。本文提出了一种基于地震易损性分析的概率方法来评估钢-混凝土组合桥梁的抗震回弹能力。该方法在不同分析步骤中考虑了结构和地震的不确定性,简化了概率需求模型的样本生成过程,大大减少了计算量。为了更深入地理解地震恢复力,更好地描述不确定性,给出了期望恢复力的估计区间,而不确定性在脆弱性中被考虑并传播到恢复力中。这种方法被应用于混凝土横梁的钢-混凝土组合桥梁的新类型,该桥梁已在欧洲研究项目SEQBRI中进行了分析。结果表明,在考虑了随机不确定性和认知不确定性的情况下,这种概率方法可以大大加快地震恢复力评估的速度。同时,对桥体在近断层和远场地震动作用下的恢复力进行了评估,研究近断层地震对桥体的地震恢复力的影响。
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GENETIC OPTIMIZATION FOR THE DESIGN OF SEISMIC RETROFITTING OF PLANE RC FRAMES WITH BUCKLING RESTRAINED BRACES (BRBS) LARGE-DISPLACEMENT RESPONSE OF UNREINFORCED MASONRY STRUCTURES: COMPARISON BETWEEN ANALYTICAL SOLUTIONS AND DEM MODELS INCLUDING OPEN-SOURCE SOFTWARE CYCLIC TESTING OF 1:40 SCALE CANTILEVER RC ELEMENTS WITH DIGITALLY MANUFACTURED REINFORCEMENT 3D ROCKING MOTION: BLIND PREDICTION CONTEST RESULTS AND INFLUENCE OF EVALUATION METRIC ON THE RANKINGS EXPERIMENTAL AND NUMERICAL INVESTIGATION OF THE PLASTIC CYCLIC BEHAVIOUR OF SIMPLE STEEL COUPONS
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