砾质土剪切波速度预测模型及其在液化触发评估中的应用

IF 6.9 1区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Chi-Chin Tsai , Jing-Wen Su , Scott M. Olson
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引用次数: 0

摘要

一些研究已经建立了剪切波速度(Vs)与标准贯入试验打击计数(SPT-N)之间的经验相关性,供工程使用。然而,这些经验相关性并不适用于富含砾石的土壤,因为在砾石中测得的 SPT-N 通常会膨胀。因此,本研究利用台湾强震仪器计划的工程地质数据库,建立了砾石的 Vs 经验相关性。Vs 预测模型除了考虑有效垂直应力、空隙率、细粒含量、塑性指数和过固结率之外,还考虑了砾石含量 (GC) 和均匀系数 (Cu)。建议的模型表明,Vs 随 GC 和 Cu 的增加而增加。此外,根据 GC 调整的 Vs 可与现有的基于 Vs 的液化触发关系一起使用,以合理界定不同 GC 的液化和非液化案例历史之间的界限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predictive model for shear wave velocity of gravelly soil and its application to liquefaction triggering assessment
Several studies have established empirical correlations between shear wave velocity (Vs) and standard penetration test blow count (SPT-N) for engineering use. However, these empirical correlations cannot be applied to gravel-rich soils since the measured SPT-N is often inflated in gravel. Therefore, an empirical correlation of Vs for gravel is developed in this study using the Engineering Geological Database for the Taiwan Strong Motion Instrumentation Program. The Vs predictive model considers gravel content (GC) and coefficient of uniformity (Cu) in addition to effective vertical stress, void ratio, fines content, plasticity index, and overconsolidation ratio, which have been considered previously. The proposed model indicates that Vs increases with GC and Cu. Moreover, the Vs adjusted for GC can be used with existing Vs -based liquefaction triggering relationships to rationally define the boundary between liquefaction and non-liquefaction case histories with different GCs.
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来源期刊
Engineering Geology
Engineering Geology 地学-地球科学综合
CiteScore
13.70
自引率
12.20%
发文量
327
审稿时长
5.6 months
期刊介绍: Engineering Geology, an international interdisciplinary journal, serves as a bridge between earth sciences and engineering, focusing on geological and geotechnical engineering. It welcomes studies with relevance to engineering, environmental concerns, and safety, catering to engineering geologists with backgrounds in geology or civil/mining engineering. Topics include applied geomorphology, structural geology, geophysics, geochemistry, environmental geology, hydrogeology, land use planning, natural hazards, remote sensing, soil and rock mechanics, and applied geotechnical engineering. The journal provides a platform for research at the intersection of geology and engineering disciplines.
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