Damage assessment of unreinforced masonry buildings incorporating damage accumulation

IF 4.3 2区 工程技术 Q1 ENGINEERING, CIVIL
Pablo García de Quevedo Inarritu, Mohsen Kohrangi, Paolo Bazzurro
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引用次数: 0

Abstract

Recent earthquakes have shown susceptibility of unreinforced masonry (URM) buildings to damage accumulation in seismic sequences or long duration ground motions. Current structural modelling approaches commonly disregard the damage accumulation in URM buildings or they are unable to accurately capture this phenomenon unless sophisticated FEM models are employed. Such models are not feasible in risk-based applications given the required large number of dynamic analyses needed to develop robust fragility and vulnerability curves. On the other hand, the common displacement-based engineering demand parameters (EDP), such as inter-story drift ratio, fail to capture the impact of damage accumulation in simpler, more manageable models. An alternative is to use advanced damage indices that are capable of monitoring the monotonic accumulation of damages. This study proposes a displacement- and energy-based damage index that uses, as the basis, the Park and Ang damage index, modified and calibrated through experimental data of individual URM elements. Our calibration procedure maps the physical observed damage states to the hysteretic response of the elements. Consequently, damage on the individual elements is aggregated to define a global damage state at building level. Validation is carried out based on an equivalent frame model of a building tested on a shake table. Additionally, the model is subjected to multiple ground motions of seismic sequences and to long-duration ground motions to evaluate the performance of the proposed damage index. In comparison with displacement-based damage measures, the proposed damage index shows a superior ability to capture cumulative damage, even when simplified models are employed.

包含损害累积的非加固砌体建筑损害评估
最近发生的地震表明,在地震序列或长时间地面运动中,非加固砌体(URM)建筑易受破坏累积的影响。目前的结构建模方法通常不考虑 URM 建筑的损坏累积,或者无法准确捕捉这一现象,除非采用复杂的有限元模型。在基于风险的应用中,此类模型并不可行,因为需要进行大量的动态分析,才能绘制出可靠的脆性和易损性曲线。另一方面,常见的基于位移的工程需求参数(EDP),如层间漂移比,无法在更简单、更易于管理的模型中捕捉到损坏累积的影响。另一种方法是使用能够监测单调损坏累积的先进损坏指数。本研究提出了一种基于位移和能量的损伤指数,该指数以 Park 和 Ang 损伤指数为基础,并通过单个 URM 构件的实验数据进行了修改和校准。我们的校准程序将物理观测到的损坏状态映射到构件的滞后响应上。因此,对单个构件的损伤进行汇总,以确定建筑物层面的整体损伤状态。验证是根据在振动台上测试的建筑物等效框架模型进行的。此外,还对该模型进行了多次地震序列地面运动和长时间地面运动测试,以评估所提出的破坏指数的性能。与基于位移的破坏测量方法相比,即使采用简化模型,建议的破坏指数也能显示出捕捉累积破坏的卓越能力。
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来源期刊
Earthquake Engineering & Structural Dynamics
Earthquake Engineering & Structural Dynamics 工程技术-工程:地质
CiteScore
7.20
自引率
13.30%
发文量
180
审稿时长
4.8 months
期刊介绍: Earthquake Engineering and Structural Dynamics provides a forum for the publication of papers on several aspects of engineering related to earthquakes. The problems in this field, and their solutions, are international in character and require knowledge of several traditional disciplines; the Journal will reflect this. Papers that may be relevant but do not emphasize earthquake engineering and related structural dynamics are not suitable for the Journal. Relevant topics include the following: ground motions for analysis and design geotechnical earthquake engineering probabilistic and deterministic methods of dynamic analysis experimental behaviour of structures seismic protective systems system identification risk assessment seismic code requirements methods for earthquake-resistant design and retrofit of structures.
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