基于现场案例的砾石土液化评估

2nd Croatian Conference on Earthquake Engineering ‒ 2CroCEE Pub Date : 2023-03-24 DOI:10.5592/co/2crocee.2023.141

K. Rollins, Jashod Roy

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引用次数: 0

摘要

在过去的130年里，至少有27次地震导致多处砾石土壤液化。这些砾石通常含有超过25%的沙子，这降低了渗透率，使它们容易液化。开发一种可靠的、具有成本效益的砾石土液化触发程序一直是岩土工程工程师面临的挑战。典型的基于SPT或cpt的相关性会受到大尺寸砾石颗粒的影响，并可能导致错误的结果。为了解决这些问题，我们建立了基于(1)横波速度(Vs)和(2)大直径锥形穿透计的砂砾土液化触发曲线。中国动态锥贯入试验(DPT)的锥径为74 mm，优于较小的贯入仪，可以在常规钻井设备上经济地进行。使用逻辑回归分析，在过去的地震中，在砾石液化和不液化的地方，DPT直接与液化阻力相关。概率液化阻力曲线是根据7个国家10次不同地震的137个数据点开发的。使用类似的数据集，基于v值在砾石土中建立了概率液化触发曲线。基于vs的砾石液化触发曲线相对于基于砂土的类似曲线向右移动。此外，还开发了专门用于砾石液化的新的数量级标度因子(MSF)曲线，发现该曲线与以前砂土的曲线相当一致。

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ASSESSING LIQUEFACTION IN GRAVELLY SOILS BASED ON FIELD CASE HISTORIES

Gravelly soils have liquefied at multiple sites in at least 27 earthquakes over the past 130 years. These gravels typically contain more than 25% sand which lowers the permeability and makes them susceptible to liquefaction. Developing a reliable, cost-effective liquefaction triggering procedure for gravelly soils has been a challenge for geotechnical engineers. Typical SPT- or CPT-based correlations can be affected by large-size gravel particles and can lead to erroneous results. To deal with these problems, we have developed liquefaction triggering curves for gravelly soils based on (1) shear wave velocity (Vs) and (2) a large diameter cone penetrometer. With a cone diameter of 74 mm, the Chinese Dynamic Cone Penetration Test (DPT) is superior to smaller penetrometers and can be economically performed with conventional drilling equipment. Using logistic regression analysis, the DPT has been directly correlated to liquefaction resistance at sites where gravels did and did not liquefy in past earthquakes. Probabilistic liquefaction resistance curves were developed based on 137 data points from 10 different earthquakes in seven countries. Using a similar data set, probabilistic liquefaction triggering curves were also developed based on Vs measurements in gravelly soils. The Vs-based liquefaction triggering curves for gravels shift to the right relative to similar curves based on sands. New magnitude scaling factor (MSF) curves have also been developed specifically for gravel liquefaction which were found to be reasonably consistent with previous curves for sand.

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2nd Croatian Conference on Earthquake Engineering ‒ 2CroCEE

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