Performance and environmental impacts of deep foundation excavation in soft soils: A field and modeling-based case study in Nanjing, China

IF 8.2 1区 工程技术 Q1 ENGINEERING, CIVIL
Chenhe Ge , Meng Yang , Pengfei Li , Mingju Zhang , Zhonghao Zhang
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Abstract

This paper focuses on the performance of a braced deep excavation in soft soil based on field monitoring and numerical modeling. Laboratory tests were conducted to determine the soil parameters used in the modified Cam–Clay (MCC) model. Intelligent field monitoring means were adopted and a three-dimensional model was established. Spatial and temporal effects induced by the excavation are investigated for the deep-large foundation pit in soft soil. Deformation characteristics of the enclosure structure and the surrounding environment throughout the excavation process are presented. The behaviors of diaphragm walls, columns, the maximum wall deflection rate, ground surface settlement, and utility pipelines were focused on and investigated during the whole excavation process. Besides, the axial forces of the internal supports are analyzed. Based on the measured and simulated data, the following main conclusions were obtained: the numerical simulation results are in good agreement with the measured values, which proves the accuracy of the model parameters; the wall and the ground surface showed the maximum displacement increment at stage 9, which was a coupled product of the “creep effect” of the soft soil in Nanjing, China and the “depth effect” of the excavation; as the excavation progressed, the ground settlement changed from a “rising” to a “spoon-shaped” trend, δvm was measured between δvm = 0.0686%H and δvm = 0.1488%H; the rebound deformation curve of the pit bottom was corrugated, and the depth of disturbance of the pit bottom after the completion of soil unloading was 2–3 times the excavation depth; the closer the pipeline is to the corner of the pit, the less the excavation process will affect the settlement of the pipeline and the less the obvious pit corner effect will occur; the support strength of the buttress and the longest corner brace should be strengthened during the actual construction process to ensure the stability of the foundation deformation.

软土深基坑开挖的性能和环境影响:中国南京基于现场和模型的案例研究
本文基于现场监测和数值建模,重点探讨了软土中支撑式深基坑的性能。通过实验室试验确定了修正的 Cam-Clay (MCC) 模型中使用的土壤参数。采用了智能现场监测手段,并建立了三维模型。研究了软土中深大基坑开挖引起的空间和时间效应。介绍了整个开挖过程中围护结构和周围环境的变形特征。在整个开挖过程中,重点研究了地下连续墙、柱、最大墙体挠度、地表沉降和公用管道的行为。此外,还分析了内部支撑的轴向力。根据实测和模拟数据,得出以下主要结论:数值模拟结果与实测值吻合较好,证明了模型参数的准确性;墙体和地表在第 9 阶段出现了最大位移增量,这是中国南京软土的 "蠕变效应 "和开挖的 "深度效应 "的耦合产物;随着开挖的进行,地面沉降由 "上升 "变为 "勺形 "趋势,δvm 在 δvm = 0.0686%H到δvm=0.1488%H之间;坑底回弹变形曲线呈波纹状,卸土完成后坑底扰动深度为开挖深度的2-3倍;管线越靠近坑角,开挖过程对管线沉降的影响越小,坑角效应越不明显;在实际施工过程中应加强支墩和最长角撑的支撑强度,确保地基变形的稳定性。
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
Underground Space
Underground Space ENGINEERING, CIVIL-
CiteScore
10.20
自引率
14.10%
发文量
71
审稿时长
63 days
期刊介绍: Underground Space is an open access international journal without article processing charges (APC) committed to serving as a scientific forum for researchers and practitioners in the field of underground engineering. The journal welcomes manuscripts that deal with original theories, methods, technologies, and important applications throughout the life-cycle of underground projects, including planning, design, operation and maintenance, disaster prevention, and demolition. The journal is particularly interested in manuscripts related to the latest development of smart underground engineering from the perspectives of resilience, resources saving, environmental friendliness, humanity, and artificial intelligence. The manuscripts are expected to have significant innovation and potential impact in the field of underground engineering, and should have clear association with or application in underground projects.
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