Integrating soil-nailed walls with RC building for seismic stability in space-constrained sites

IF 3.7 2区 工程技术 Q3 ENGINEERING, ENVIRONMENTAL Bulletin of Engineering Geology and the Environment Pub Date : 2024-10-02 DOI:10.1007/s10064-024-03922-4
Amrita, B. R. Jayalekshmi, R. Shivashankar
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Abstract

In urban environments, space constraints necessitate innovative construction methods. Due to rising demand for infrastructures and scarcity of plane ground, structures are built on sloping or irregular ground. To make use of available land, vertical cuts or excavations are made in the natural soil stratum which can be effectively retained using the soil nailing technique. However, if the area adjacent to the nailed vertical cut is utilised for constructing a multi-storeyed building, the behaviour of the nailed structure may vary. This study examines the impact of the presence of multi-storeyed RC buildings on the response of soil-nailed structures in their proximity during earthquake ground motion. The seismic response of a soil-nailed structure is evaluated in the presence of various heights of medium-rise multi-storeyed buildings. Three-dimensional multi-storeyed buildings and soil-nailed structures are analysed with various arrangements and connectivities between them, taking into account different soil profiles at the site. Dynamic finite element analyses of integrated soil-nailed wall-building systems have been performed using time history data of ground motion. The findings suggest that the integration between the two structures enhances the seismic stability of both the structures under dynamic load as evident in the reduced deformation and acceleration of the structures. It restricts the lateral movement of the nailed wall and reduces its displacement by about 40%. This integration can be implemented in space-constrained sites for optimum utilisation of available space.

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将土钉墙与钢筋混凝土建筑结合起来,在空间有限的场地实现抗震稳定性
在城市环境中,由于空间有限,必须采用创新的建筑方法。由于对基础设施的需求不断增加,而平地又十分稀缺,因此需要在倾斜或不规则的地面上建造建筑物。为了利用可用的土地,需要在天然土层上进行垂直切割或挖掘,而使用土钉技术可以有效地保留这些土层。然而,如果利用与钉土垂直切口相邻的区域建造多层建筑,钉土结构的性能可能会发生变化。本研究探讨了地震地面运动时,多层 RC 建筑的存在对邻近土钉结构响应的影响。在不同高度的中层多层建筑存在的情况下,对土钉结构的地震响应进行了评估。考虑到现场不同的土壤剖面,分析了三维多层建筑和土钉结构之间的各种排列和连接方式。利用地面运动的时间历史数据,对土钉墙建筑一体化系统进行了动态有限元分析。研究结果表明,两个结构之间的整合增强了两个结构在动荷载作用下的抗震稳定性,这一点从结构变形和加速度的减小可以明显看出。它限制了钉墙的横向移动,使其位移减少了约 40%。这种一体化结构可在空间受限的场地实施,以优化可用空间的利用。
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来源期刊
Bulletin of Engineering Geology and the Environment
Bulletin of Engineering Geology and the Environment 工程技术-地球科学综合
CiteScore
7.10
自引率
11.90%
发文量
445
审稿时长
4.1 months
期刊介绍: Engineering geology is defined in the statutes of the IAEG as the science devoted to the investigation, study and solution of engineering and environmental problems which may arise as the result of the interaction between geology and the works or activities of man, as well as of the prediction of and development of measures for the prevention or remediation of geological hazards. Engineering geology embraces: • the applications/implications of the geomorphology, structural geology, and hydrogeological conditions of geological formations; • the characterisation of the mineralogical, physico-geomechanical, chemical and hydraulic properties of all earth materials involved in construction, resource recovery and environmental change; • the assessment of the mechanical and hydrological behaviour of soil and rock masses; • the prediction of changes to the above properties with time; • the determination of the parameters to be considered in the stability analysis of engineering works and earth masses.
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