Response Reduction Factor for Structures with Significant Irregularities on Different Soil Stratum

Civil Engineering Journal Pub Date : 2024-03-01 DOI:10.28991/cej-2024-010-03-07

Shorouk M. Elsadany, M. Fayed, T. Sorour, A. M. Anwar, N. Nasr

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Abstract

The ability of a structure to dissipate energy through inelastic behavior is reflected in the response reduction factor (R), which is influenced by redundancy, ductility, and overstrength. Accurate determination of R is crucial for seismic design. This study focuses on determining the response factor for reinforced concrete (RC) structures with various irregularities. Non-linear static pushover analysis using SAP2000 was employed for numerical simulations to assess the impact of soil-structure interaction (SSI). The analysis included elevational and in-plan irregularities, revealing that buildings with irregular vertical geometries have lower inelastic seismic capacities compared to regular buildings. Consequently, R should be reduced by 15–40% from the ECP 2020 standard before the design phase for such structures. Irregularity was found to have a significant impact on weak soil conditions (C), leading to a reduction in R of 20.3% and 13.1% for fixed and isolated supports, respectively, on loose soil. Additionally, stiffer base soils were associated with higher R values for the same structure. Doi: 10.28991/CEJ-2024-010-03-07 Full Text: PDF

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不同土层上有明显不规则的结构的响应降低系数

结构通过非弹性行为耗散能量的能力反映在响应降低系数（R）上，而响应降低系数受冗余度、延展性和超强度的影响。准确确定 R 对于抗震设计至关重要。本研究的重点是确定具有各种不规则性的钢筋混凝土（RC）结构的反应系数。采用 SAP2000 进行非线性静力推移分析，以数值模拟评估土壤-结构相互作用（SSI）的影响。分析包括立面和平面内的不规则情况，结果表明，与规则建筑物相比，具有不规则垂直几何形状的建筑物的非弹性抗震能力较低。因此，在设计阶段之前，此类结构的 R 值应比 ECP 2020 标准降低 15-40%。研究发现，不规则性对软弱土壤条件（C）有显著影响，导致松散土壤上的固定支撑和孤立支撑的 R 值分别降低 20.3% 和 13.1%。此外，对于相同的结构，较硬的基底土壤与较高的 R 值相关。Doi: 10.28991/CEJ-2024-010-03-07 全文：PDF

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Civil Engineering Journal

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