Structural assessment of the medieval city wall of Seville (Spain) using low-cost accelerometers

IF 3.5 2区综合性期刊 0 ARCHAEOLOGY

Journal of Cultural Heritage Pub Date : 2025-04-11 DOI:10.1016/j.culher.2025.03.012

Alvaro R. Serrano-Chacón , Emilio J. Mascort-Albea , Rocío Romero-Hernández , Jacinto Canivell , Fernando Muñoz-Chavero , Eduardo Hidalgo-Fort , Antonio Jaramillo-Morilla

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引用次数: 0

Abstract

The remains of fortifications are commonly found embedded in the contemporary urban fabric of historic cities. Due to their typological nature, these heritage assets are usually elements of great size and impact on the urban landscape. Their location within cities exposes them to very specific risks, such as pollution, vibration, biodegradation, and anthropic factors, which must be taken into account for the proper conservation and maintenance of such remains.

The case of the medieval wall of Seville (Spain), built on rammed earth, shows specific factors of vulnerability, degradation, and erosion which prompt the need for non-destructive techniques (NDT). In the present research, vibration-based inspection is used and, specifically, when subjected to ambient vibrations. The collection of accelerations, which covered a period of nine months, was conducted in different parts of the structure under study by using mainly high-resolution accelerographs. These data allowed to perform an exhaustive dynamic characterisation of this defensive structure. Among other findings, it was determined that the filling of cracks and voids in the walls increased the fundamental frequency by about 2 %. In addition, no serious damage to the structure was found.

Knowledge of the historic buildings' condition is essential in order to determine the most appropriate intervention. To this end, a protocol for the global structural diagnosis of these buildings has been proposed. It is based on the recording of accelerations with low-cost accelerographs. Besides being an inexpensive protocol, it allows a quick decision making, since the dynamic characterization of the structure is performed by means of the fast Fourier transform.

Basically, the designed protocol is based on the variation of the fundamental frequency of the structure between two time instants. These values are used for the calculation of a damage index. By means of an exhaustive review of conventional masonry buildings tested in the laboratory, the damage index has been correlated with the state of the structure prior to collapse. Specifically, this threshold, which ranges from DS4 to DS5 according to the criteria of the European Macroseismic Scale 1998 (EMS-98), provides a valuable reference point for the structural assessment of historical box-shaped constructions with conventional masonry load-bearing walls.

This simplified procedure for structural diagnosis was applied in its initial phase at the White Tower. It was found that this protocol is able to identify the fundamental frequency of the structure with an error of <0.65 % in comparison to the results obtained through operational modal analysis methods.

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使用低成本加速度计对西班牙塞维利亚中世纪城墙进行结构评估

防御工事的遗迹通常被发现嵌入历史城市的当代城市结构中。由于它们的类型学性质，这些遗产资产通常是规模很大的元素，对城市景观有很大的影响。它们在城市中的位置使它们面临非常具体的风险，如污染、振动、生物降解和人为因素，必须考虑到这些遗迹的适当保护和维护。塞维利亚（西班牙）中世纪夯土城墙的案例显示出脆弱性、退化和侵蚀的具体因素，促使人们需要非破坏性技术（NDT）。在目前的研究中，基于振动的检测被使用，特别是当受到环境振动时。加速度的收集持续了9个月，主要使用高分辨率加速度计在所研究的结构的不同部分进行。这些数据可以对这种防御结构进行详尽的动态表征。在其他发现中，确定了墙壁中裂缝和空隙的填充使基频增加了约2%。此外，没有发现严重的结构损坏。了解历史建筑的状况对于确定最适当的干预措施至关重要。为此，提出了一种对这些建筑物进行整体结构诊断的方案。它是基于用低成本加速度计记录加速度。除了是一种廉价的协议，它允许快速决策，因为结构的动态表征是通过快速傅里叶变换来执行的。基本上，所设计的协议是基于两个时间瞬间之间结构基频的变化。这些值用于计算损伤指数。通过对实验室测试的传统砌体建筑的详尽审查，破坏指数与结构倒塌前的状态相关。具体来说，根据1998年欧洲宏观地震震级（EMS-98）的标准，该阈值范围从DS4到DS5，为传统砌体承重墙的历史箱形建筑的结构评估提供了一个有价值的参考点。这种简化的结构诊断程序在白塔的初始阶段被应用。结果表明，该方案能够识别结构的基频，与通过操作模态分析方法获得的结果相比，误差为0.65%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Cultural Heritage 综合性期刊-材料科学：综合

CiteScore

6.80

自引率

9.70%

发文量

166

审稿时长

52 days

期刊介绍： The Journal of Cultural Heritage publishes original papers which comprise previously unpublished data and present innovative methods concerning all aspects of science and technology of cultural heritage as well as interpretation and theoretical issues related to preservation.