Correlation of shear wave velocity with liquefaction resistance based on laboratory tests   总被引：4，自引：0，他引：4  

Chen Yunmin  Ke Han  Chen Ren-peng 《Soil Dynamics and Earthquake Engineering》2005,25(6):461-469

According to the results of cyclic triaxial tests on Hangzhou sands, a correlation is presented between liquefaction resistance and elastic shear modulus. Material-dependent but independent of confining stress, shows the linear relation of (σ_d/2)^1/2 with G_max. For its application to different soils, a method proposed by Tokimatsu [Tokimatsu K, Uchida A. Correlation between liquefaction resistance and shear wave velocity. Soils Found 1990:30(2):33–42] is utilized to normalize the shear modulus with respect to minimum void ratio. A simplified equation is established to evaluate the liquefaction potential by shear-wave velocity. The critical shear-wave velocity of liquefaction is in linear relation with 1/4 power of depth and the peak horizontal ground surface acceleration during earthquakes. The equation proposed in this paper is compared with previous methods especially the procedure proposed by Andrus [RD Andrus, KH Stokoe. Liquefaction resistance of soils from shear-wave velocity. J Geotech Geoenviron Eng 2000:126(11):1015–25]. The results show its simplicity and effectiveness when applied to sands, but more validation or modification is needed for its application to sand with higher fines content.  相似文献   

The study on the bottom friction and the breaking coefficient for typhoon waves in radial sand ridges—the Lanshayang Channel as an example     

XU Zhuo  ZHANG Wei  LU Peidong  CHEN Kefeng 《海洋学报(英文版)》2015,34(3):99-107

Owing to the interactions among the complex terrain, bottom materials, and the complicate hydrodynamics, typhoon waves show special characteristics as big waves appeared at the high water level(HWL) and small waves emerged at low and middle water levels(LWL and MWL) in radial sand ridges(RSR). It is assumed that the mud damping, sandy bed friction and wave breaking effects have a great influence on the typhoon wave propagation in this area. Under the low wave energy, a mud layer will form and transport into the shallow area, thus the mud damping effects dominate at the LWL and the MWL. And high Collins coefficient(c around 1) can be applied to computing the damping effects at the LWL and the MWL. But under the high wave energy, the bottom sediment will be stirred and suspended, and then the damping effects disappear at the HWL. Thus the varying Collins coefficient with the water level method(VCWL) is implemented into the SWAN to model the typhoon wave process in the Lanshayang Channel(LSYC) of the RSR, the observed wave data under "Winnie"("9711") typhoon was used as validation. The results show that the typhoon wave in the RSR area is able to be simulated by the VCWL method concisely, and a constant wave breaking coefficient(γ) equaling 0.78 is better for the RSR where wide tidal flats and gentle bed slopes exist.  相似文献   

基于GIS的城市道路网无级比例尺信息提取     

杨伶俐  李小娟  尹连旺  宫辉力  赵文吉 《测绘科学技术学报》2006,23(3):225-227

阐述了无级比例尺矢量数据信息处理技术的基本原理、流程与方法,研究了城市道路网信息提取的实现方法,概括了无级比例尺信息提取过程中要素选取的"取舍"原则,提出了面向对象的城市道路网分类体系,并运用层次分析法对同级别城市道路进行重要性排序,从而实现了将各级别城市道路的重要性进行总体排序,为城市道路网无级比例尺信息的内容选取提供了前提.  相似文献   

真三轴条件下Q3原状黄土的力学特性     

方瑾瑾  冯以鑫  朱昌星 《岩土力学》2018,39(5):1699-1708

为了模拟实际工程中黄土在不排水条件下的破坏,在控制含水率不变条件下,利用非饱和土真三轴仪对不同初始吸力非饱和原状黄土进行了等向固结试验和不同中主应力参数b值的剪切试验,研究了非饱和原状黄土的力学特性。研究结果表明：真三轴等向压缩屈服应力随着初始吸力的增大而增大,吸力随着净平均应力的增大而减小,净平均应力对吸力的影响程度随着初始吸力的增大而增大。不同 值条件下,广义剪应力和净平均应力破坏状态线近似呈平行直线关系,广义剪应力和有效净平均球应力试验点可归一为饱和土的排水剪切破坏状态线;剪切破坏时吸力随着b值的增大基本呈线性增大趋势;孔隙比和净平均应力对数临界状态线近似呈线性平行关系,其斜率比饱和土大,且大于等向压缩屈服前的斜率;非饱和土孔隙比和有效净平均球应力对数临界状态线与饱和土的临界状态线近似呈线性平行关系;不同净围压条件下,不同 值非饱和土与饱和土的破坏状态孔隙比的比值与气体饱和度的试验点分布于1.0～1.2的直线带内,但同一净有效球应力条件下可以归一为一条非线性曲线。  相似文献   

Roles of a periodic time varying deceleration parameter in particle creation with (d+2) dimensional FLRW Universe     

《New Astronomy》2022

  相似文献   

Effects of skeleton void ratio on the strength and deformation characteristics of coarse-grained soilEI北大核心     

潘家军孙向军左永振王俊鹏卢一为韩冰 《岩土力学》2023,(8):2186-2194

粗粒土强度变形特性与初始级配和制样干密度密切相关。为研究不同级配和密度组合的粗粒料强度变形特性,提出了一种计算简便、易于推广的粗粒土骨架孔隙比计算方法。开展的室内试验结果表明,该计算方法所得的骨架孔隙比与粗粒土力学特性之间存在较为明显的单调性变化规律。当试样尺寸一致时,随着骨架孔隙比减小,破坏剪应力增大,破坏摩擦角增大,黏聚力减小;平均初始切线弹性模量增大,平均初始切线泊松比减小。整体而言,骨架孔隙比越小,粗粒土强度、刚度越大。基于该结论,笔者提出了一种等骨架孔隙比粗粒土缩尺方法。  相似文献