Influence of spiral anchor composite foundation on seismic vulnerability of raw soil structure

Shiwei Hou , Guangliang Gao , Hao Zhang , Zhanwen Lai , Junyan Han
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引用次数: 1

Abstract

A typical single-layer raw soil structure in villages and towns in China is taken as the research object. In the probabilistic seismic demand analysis, the seismic demand model is obtained by the incremental dynamic time history analysis method. The seismic vulnerability analysis is carried out for the raw soil structure of non-foundation, strip foundation, and spiral anchor composite foundation, respectively. The spiral anchor composite foundation can reduce the seismic response and failure state of raw soil structure, and the performance level of the structure is significantly improved. Structural requirements sample data with the same ground motion intensity are analyzed by linear regression statistics. Compared with the probabilistic seismic demand model under various working conditions, the seismic demand increases gradually with the increase of intensity. The seismic vulnerability curve is summarized for comparative analysis. With the gradual deepening of the limit state, the reduction effect of spiral anchor composite foundation on the exceedance probability becomes more and more obvious, which can reduce the probability of structural failure to a certain extent.

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螺旋锚杆复合地基对生土结构地震易损性的影响
以中国典型的单层原土结构为研究对象。在概率地震需求分析中,采用增量动力时程分析方法得到地震需求模型。分别对非基础、条形基础和螺旋锚杆复合基础的原土结构进行地震易损性分析。螺旋锚杆复合地基可以降低原土结构的地震反应和破坏状态,显著提高结构的性能水平。采用线性回归统计方法对具有相同地震动强度的结构要求样本数据进行分析。与各种工况下的概率地震需求模型相比,地震需求随着烈度的增加而逐渐增大。总结地震易损性曲线,进行对比分析。随着极限状态的逐渐加深,螺旋锚杆复合地基对超过概率的降低作用越来越明显,可以在一定程度上降低结构破坏的概率。
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