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渤海常见土类剪切波速与埋深关系分析 总被引:2,自引:2,他引:0
土层的剪切波速是岩土地震工程中重要的物理量,本文利用多年来在渤海海域地震安全性评价中积累的资料,研究了渤海常见土类剪切波速和埋深的关系。利用非线性最小二乘法,采用指数函数、一次函数、二次函数、幂函数、"幂函数+常数函数"、"幂函数+一次函数" 6种回归模型对各类土的剪切波速和埋深的关系进行了回归分析,以拟合优度以及最小二乘拟合的误差平方和为评价指标对比了各种模型拟合效果的优劣。结果表明,"幂函数+一次函数"回归模型的拟合效果最好。此外,本文给出了该海域常见的7类土在此回归模型下的拟合公式的系数,以供工程中参考。 相似文献
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下辽河平原区剪切波速与土层埋深关系分析 总被引:7,自引:0,他引:7
土体剪切波速是岩土工程勘察和地震安全性评价应用最广的参量之一。依据下辽河平原区大量的钻孔实测剪切波速数据,探讨了不同土类剪切波速与埋深间的关系:通过最小二乘法分别采用线性模型、指数模型和一元二次多项式模型建立了按土性分类的土体剪切波速与埋深间的统计公式,以拟合优度为评价指标进行对比选择,并与《构筑物抗震设计规范》的经验公式及工程场地实测结果进行了对比。结果表明:所推荐的剪切波速与埋深间的统计公式优于规范的经验公式;采用推荐公式与实测结果进行了土层地震反应分析对比,结果表明,两者计算结果差别不大,均可用于下辽河平原区一般建筑的工程勘察与地震安全评价。 相似文献
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剪切波速是评估无黏性土力学性质的重要参数。为探究现行剪切波速液化判别方法不适用于砾性土场地的原因,利用自主研发的无黏性土剪切波速与相对密度联合测试系统,以汶川地震液化场地实测资料为参考,通过对福建标准砂和花岗岩圆砾按比例混合配制不同含砾量的砾性土试样在控制相对密度下的K0状态剪切波速试验,研究其含砾量对含砾无黏性土的剪切波速影响规律。试验结果表明:相对密度相同的砾性土剪切波速大于砂土,二者剪切波速比值与砾性土的含砾量成指数函数关系,两者比值最大为1.4;对于砾性土试样,在含砾量40%-60%间存在阀值,当含砾量小于该值,剪切波速随含砾量的增加明显增大,当含砾量大于该值,剪切波速的增长趋势放缓。试验研究指出了现行剪切波速判别方法不适用于砾性土场地的原因,揭示了含砾量与砾性土剪切波速的相互关系,提出了相同相对密度砾性土相对砂土的剪切波速修正公式,为建立新的判别方法提供了理论基础,也为岛礁珊瑚吹填土等宽级配无黏性新工程材料的性能研究拓展了技术手段。 相似文献
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通过对西安市3个主要地貌单元共309个钻孔剪切波速资料的分析整理,采用指数和线性拟合两种方法对测点较多的细砂、中砂、粗砂、黄土、粉质粘土、古土壤、卵石等土类的剪切波速VS与土层深度H的关系进行统计回归,得到其经验关系式;将实测剪切波速值与利用上述统计结果得到的预测值进行对比检验,两者差别不大。说明区分地貌单元和各类土层的VS与H经验关系可靠且符合当地岩土特征,可用于西安地区一般建筑的工程勘察与地震安全性评价工作。 相似文献
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华北地区剪切波速与深度之间统计关系的通用模型特征研究 总被引:1,自引:1,他引:0
剪切波速是区别土动力学和静力学的重要参数,其影响因素包括土层埋深、颗粒形状、颗粒比重、压缩模量、孔隙比、含水率和密度等,其中土层埋深对剪切波速的变化影响较大。本文搜集整理了华北地区10个城市的928个钻孔共10703个测点的剪切波速与土层埋深之间的经验统计关系,探讨华北地区剪切波速随深度变化的特征,并从岩性条件、沉积环境等方面分析其原因。通过对比分析,给出了华北地区黏性土和砂类土剪切波速随深度变化的最佳拟合经验统计关系,并进行实例验证,所得结果可为缺乏数据的区域提供一定参考。 相似文献
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为探讨测试方法、试验条件以及级配特征对砂-粉混合料剪切波速的影响,对具有不同细粒含量FC,相对密度Dr以及初始有效围压$\sigma_{3 \mathrm{c}}^{\prime}$的砂-粉混合料进行弯曲元和共振柱试验。结果表明:当Dr =35%或50%时,剪切波速Vs随FC的增大先减小后增大;当Dr =60%时,Vs随FC的增大而减小;弯曲元试验测得的Vs明显大于共振柱试验测得的Vs,随着FC的增大,弯曲元试验与共振试验得到的Vs差值逐渐减小,而当FC>20%时,两种试验得到的Vs基本相同。在考虑Vs弥散性之后,不同FC的混合料弯曲元与共振柱试验得到的Vs结果具有较好的一致性。基于Hardin模型建立的砂-粉混合料Vs预测方法具有较好的预测效果。 相似文献
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The relationship between Vp and Vs may be used to predict Vs where only Vp is known. Vp/Vs is also used to identify pore fluids from seismic data and amplitude variation with offset analysis. Theoretical, physical, as well as statistical empirical Vp‐Vs relationships have been proposed for reservoir characterization when shear‐wave data are not available. In published work, the focus is primarily on the Vp‐Vs relationship of quartzitic sandstone. In order to broaden the picture we present Vp‐Vs relationships of greensand composed of quartz and glauconite by using data from the Paleocene greensand Nini oil field in the North Sea. A Vp‐Vs relationship derived from modelling is compared with empirical Vp‐Vs regressions from laboratory data as well as from log data. The accuracy of Vs prediction is quantified in terms of root‐mean‐square error. We find that the Vp‐Vs relationship derived from modelling works well for greensand shear‐wave velocity prediction. We model the seismic response of glauconitic greensand by using laboratory data from the Nini field. Our studies here reveal that brine‐saturated glauconitic greensand can have a similar seismic response to that from oil‐saturated quartzitic sandstone and that oil‐saturated strongly cemented greensand can have a similar amplitude variation with offset response to that from brine‐saturated weakly cemented greensand. 相似文献
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Enrico Conte Renato Maria CosentiniAntonello Troncone 《Soil Dynamics and Earthquake Engineering》2009
The primary objective of this study is for presenting some simple-to-use expressions relating the shear and dilatational wave velocities (VS and VP) to some physical and constitutive parameters of unsaturated soils. To this purpose, a simplified formulation is developed using the theory of linear poroelasticity in conjunction with some constitutive parameters widely used in geotechnical engineering. The derived expressions are of practical interest in view of the fact that they could be employed for evaluating the involved soil parameters from VS and VP measurements by in-situ or laboratory geophysical tests. 相似文献
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土体剪切波速是进行土层地震反应分析的动力学参数,对场地地震动参数确定具有重要意义。基于地质地貌分析,将大同盆地划分为5类典型地质单元。对盆地1429个钻孔剪切波速资料进行分析,探讨VS30与VS20的相关性,研究土体埋深、岩性、地质单元、标贯击数及密实度等地质特征对VS的影响,并基于地质单元、剪切波速比、密实度系数及第四系上部覆盖层厚度相关性分析给出土体VS30预测模型。研究结果表明,基于典型地质特征的VS30预测模型拟合优度R2>0.90,预测精度很高,对于离散性较大、直接拟合估算较差及无剪切波速场地来说,以区分地质单元及土体类型的方式进行VS30分解预测是良好的研究思路。首次在区分地质单元及土体类型的前提下提出剪切波速比及密实度系数,并将其与第四系上部覆盖层厚度综合应用于VS30预测研究。研究结果可为大同盆地城市防震减灾规划、震害预测、区域性地震安全评价提供重要技术支撑。 相似文献
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Shear‐wave statics in marine seismic exploration data are routinely too large to be estimated using conventional techniques. Near‐surface unconsolidated sediments are often characterized by low values of Vs and steep velocity gradients. Minor variations in sediment properties at these depths correspond to variations in the shear‐wave velocity and will produce significant static shifts. It is suggested that a significant proportion of the shear‐wave statics solution can be estimated by performing a separate high‐resolution survey to target near‐surface unconsolidated sediments. Love‐wave, shear‐wave refraction and geotechnical measurements were individually used to form high‐resolution near‐surface shear‐wave velocity models to estimate the shear‐wave statics for a designated survey line. Comparisons with predicted statics revealed that shear‐wave statics could not be estimated using a velocity model predicted by substituting geotechnical measurements into empirical relationships. Empirical relationships represent a vast simplification of the factors that control Vs and are therefore not sufficiently sensitive to estimate shear‐wave statics. Refraction measurements are potentially sensitive to short‐wavelength variations in sediment properties when combined with accurate navigational data. Statics estimated from Love‐wave data are less sensitive, and sometimes smoothed in appearance, since interpreted velocity values represent an average both laterally and vertically over the receiver array and the frequency–depth sensitivity range, respectively. For the survey site, statics estimated from near‐surface irregularities using shear‐wave refraction measurements represent almost half the total statics solution. More often, this proportion will be greater when bedrock relief is less. 相似文献
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Based on the liquefaction performance of sites with seismic activity, the normalized shear wave velocity, Vs1, has been proposed as a field parameter for liquefaction prediction. Because shear wave velocity, Vs, can be measured in the field with less effort and difficulty than other field tests, its use by practitioners is highly attractive. However, considering that its measurement is associated with small strain levels, of the order of 10−4–10−3%, Vs reflects the elastic stiffness of a granular material, hence, it is mainly affected by soil type, confining pressure and soil density, but it is insensitive to factors such as overconsolidation and pre-shaking, which have a strong influence on the liquefaction resistance. Therefore, without taking account of the important factors mentioned above, the correlation between shear wave velocity and liquefaction resistance is weak.In this paper, laboratory test results are presented in order to demonstrate the significant way in which OCR (overconsolidation ratio) affects both shear wave velocity and liquefaction resistance. While Vs is insensitive to OCR, the liquefaction resistance increases significantly with OCR. In addition, the experimental results also confirm that Vs correlates linearly with void ratio, regardless of the maximum and minimum void ratios, which means that Vs is unable to give information about the relative density. Therefore, if shear wave velocity is used to predict liquefaction potential, it is recommended that the limitations presented in this paper be taken into account. 相似文献
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CPT-based seismic stability assessment of a hazardous waste site 总被引:1,自引:0,他引:1
Neven Matasovic Edward Kavazanjian Jr Anirban De Jeff Dunn 《Soil Dynamics and Earthquake Engineering》2006,26(2-4):201-208
In areas of high seismicity, seismic stability often controls hazardous and solid waste landfill closure design. The undrained shear strength (Su) of the waste mass is fundamental to seismic slope stability analyses. The value of Su for hazardous waste fill is often difficult to characterize. The physical and chemical natures of the waste fill typically preclude laboratory testing of the materials. In certain cases, Cone Penetration Test (CPT) soundings can provide a viable technique for evaluation of Su provided that the cone shear strength factor Nk can be established. If hazardous waste materials laboratory testing is not an option, Nk may be evaluated based upon results of non-intrusive in situ testing. This paper presents a case history of the seismic stability assessment of a hazardous waste site in which Nk was established from the results of non-intrusive Spectral Analysis of Surface Waves (SASW) soundings and empirical correlations to shear strength of soils. Generalization of the proposed methodology to other sites should be done with caution owing to variability among the parameters used in the analyses. 相似文献
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To determine the shear wave velocity structure and predominant period features of T?naztepe in ?zmir, Turkey, where new building sites have been planned, active–passive surface wave methods and single-station microtremor measurements are used, as well as surface acquisition techniques, including the multichannel analysis of surface waves (MASW), refraction microtremor (ReMi), and the spatial autocorrelation method (SPAC), to pinpoint shallow and deep shear wave velocity. For engineering bedrock (V s > 760 m/s) conditions at a depth of 30 m, an average seismic shear wave velocity in the upper 30 m of soil (AVs30) is not only accepted as an important parameter for defining ground behavior during earthquakes, but a primary parameter in the geotechnical analysis for areas to be classified by V s30 according to the National Earthquake Hazards Reduction Program (NEHRP). It is also determined that Z1.0, which represents a depth to V s = 1000 m/s, is used for ground motion prediction and changed from 0 to 54 m. The sediment–engineering bedrock structure for T?naztepe that was obtained shows engineering bedrock no deeper than 30 m. When compared, the depth of engineering bedrock and dominant period map and geology are generally compatible. 相似文献
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Brent L. Rosenblad Jonathan Bailey Ryan Csontos Roy Van Arsdale 《Soil Dynamics and Earthquake Engineering》2010
Deep unconsolidated sediments in the Mississippi embayment will influence ground motions from earthquakes in the New Madrid seismic zone. Shear wave velocity profiles of these sediments are important input parameters for modeling wave propagation and site response in this region. Low-frequency, active-source surface wave velocity measurements were performed to develop small-strain shear wave velocity (VS) profiles at eleven deep soil sites in the Mississippi embayment, from north of New Madrid, Missouri to Memphis, Tennessee. A servo-hydraulic, low-frequency source was used to excite surface wave energy to wavelengths of 600 m, resulting in VS profiles to depths of over 200 m. The average VS profile calculated from the eleven sites is in good agreement with common reference VS profiles that have been used in seismic hazard studies of this region. The variability in VS profiles is shown to be associated with changes in formation depth and thickness from site-to-site. Using lithologic information at each site, average formation velocities were developed and compared to previous studies. We found average VS values of about 193 m/s for alluvial deposits, 400 m/s for the Upper Claiborne formations, and 685 m/s for the Memphis Sand formation. 相似文献
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Chang-Guk Sun Chang-Soo Cho Minkyung Son Jin Soo Shin 《Pure and Applied Geophysics》2013,170(3):271-281
Shear wave velocity (V S) can be obtained using seismic tests, and is viewed as a fundamental geotechnical characteristic for seismic design and seismic performance evaluation in the field of earthquake engineering. To apply conventional geotechnical site investigation techniques to geotechnical earthquake engineering, standard penetration tests (SPT) and piezocone penetration tests (CPTu) were undertaken together with a variety of borehole seismic tests for a range of sites in Korea. Statistical modeling of the in-situ testing data identified correlations between V S and geotechnical in-situ penetration data, such as blow counts (N value) from SPT and CPTu data including tip resistance (q t), sleeve friction (f s), and pore pressure ratio (B q). Despite the difference in strain levels between conventional geotechnical penetration tests and borehole seismic tests, it is shown that the suggested correlations in this study is applicable to the preliminary determination of V S for soil deposits. 相似文献