Studies on Suction-Assisted Installation Behavior of Suction Caissons in Clay Under Various Undrained Shear Strengths

Suction caissons are widely used for anchoring floating platform and offshore wind turbines.Penetration of the suction caisson into the desired position under the combination of its self-weight and applied suction resulted from pumping out the encased water is integral to practical engineering.Model tests were carried out to investigate the suctionassisted installation of suction caissons in clay under various undrained shear strengths.It was found that there exists a critical penetration depth value.When the penetration depth is smaller than the critical value,the soil plug undrained shear strength is higher than intact clay(i.e.,clay prior to installation).However,when the penetration depth is greater than the critical penetration depth,the undrained shear strength of soil plug is lower than intact clay.The critical value decreases with the increasing consolidation time and undrained shear strength of clay.During suction-assisted installation,cracks occur around suction caissons.The installation way has little effect on the crack formation.The influence range(i.e.,the maximum distance between the crack and the suction caisson edge)was found to increase with the increasing friction coefficient of interface between the suction caisson wall and soil and decreases with the increasing soil undrained shear strength.In addition,the drained condition of the clay during installation is dominated by the caisson aspect ratio,the undrained shear strength and the friction coefficient between the caisson wall and clay.Equations to estimate the penetration resistance and the required suction to install the suction caisson are summarized.

Using Piezocone Dissipation Test to Estimate the Undrained Shear Strength (<i>s_u</i>), <i>N_kt</i>and <i>N_Δu</i>Factors in Cohesive Soils

The current practice of geotechnical engineering commonly uses a combination of theoretical and empirical correlations to estimate the soil undrained shear strength in clays from the piezocone test. In order to complement the use of such correlations, the application of a method to estimate the soil undrained shear strength, using measures of the excess pore pressure in dissipation tests of piezocone is presented. In cohesive soils, excess pore pressure and undrained shear strength are dependent on the same variables (stress state, stress history, soil stiffness), which allows them to be related by the theoretical cavity expansion-critical state framework. This paper mentions the mathematical formulation that supports the theoretical framework used, its relationship with the Nkt and NΔu factors and their estimation in a case studied. The results obtained are consistent within the dispersion found in the international literature and encourage the use of the method in engineering practice.

Undrained shear strength evaluation for hydrate-bearing sediment overlying strata in the Shenhu area, northern South China Sea

The undrained shear strength of shallow strata is a critical parameter for safety design in deep-water operations.In situ piezocone penetration tests(CPTU) and laboratory experiments are performed at Site W18-19 in the Shenhu area, northern South China Sea, where China's first marine hydrate exploitation operation is due to be located. The validation of the undrained shear strength prediction model based on CPTU parameters. Different laboratory tests, including pocket penetrometer, torvane, miniature vane and unconsolidated undrained triaxial tests, are employed to solve empirical cone coefficients by statistical and mathematical methods. Finally, an optimized model is proposed to describe the longitudinal distribution of undrained shear strength in calcareous clay strata in the Shenhu area. Research results reveal that average empirical cone coefficients based on total cone resistance, effective resistance, and excess-pore pressure are 13.8, 4.2 and 14.4, respectively. The undrained shear strength prediction model shows a good fit with the laboratory results only within specific intervals based on their compaction degree and gas-bearing conditions. The optimized prediction model in piecewise function format can be used to describe the longitudinal distribution of the undrained shear strength for calcareous clay within all depth intervals from the mud-line to the upper boundary of hydrate-bearing sediments(HBS). The optimized prediction result indicates that the effective cone resistance model is suitable for very soft to firm calcareous clays,the excess-pore pressure model can depict the undrained shear strength for firm to very stiff but gas-free clays,while the total cone resistance model is advantageous for evaluating the undrained shear strength for very stiff and gassy clays. The optimized model in piecewise function format can considerably improve the adaptability of empirical models for calcareous clay in the Shenhu area. These results are significant for safety evaluations of proposed hydrate exploitation projects.

Revisiting the Bjerrum's correction factor:Use of the liquidity index for assessing the effect of soil plasticity on undrained shear strength

The undrained shear strength （su） of fine-grained soils that can be measured in situ and in laboratory isone of the key geotechnical parameters. The unconfined compression test （UCT） is widely used in laboratoryto measure this parameter due to its simplicity; however, it is severely affected by sampledisturbance. The vane shear test （VST） technique that is less sensitive to sample disturbance involves acorrection factor against the soil plasticity, commonly known as the Bjerrum＇s correction factor, m. Thisstudy aims to reevaluate the Bjerrum＇s correction factor in consideration of a different approach and arelatively new method of testing. Atterberg limits test, miniature VST, and reverse extrusion test （RET）were conducted on 120 remolded samples. The effect of soil plasticity on undrained shear strength wasexamined using the liquidity index instead of Bjerrum＇s correction factor. In comparison with the resultobatined using the Bjerrum＇s correction factor, the undrained shear strength was better representedwhen su values were correlated with the liquidity index. The results were validated by the RET, whichwas proven to take into account soil plasticity with a reliable degree of accuracy. This study also showsthat the RET has strong promise as a new tool for testing undrained shear strength of fine-grained soils.

CPT-Based estimation of undrained shear strength of fine-grained soils in the Huanghe River Delta

The Huanghe River(Yellow River)Delta has a wide distribution of fine-grained soils.Fluvial alluviation,erosion,and wave loads affect the shoal area,resulting complex physical and mechanical properties to sensitive finegrained soil located at the river-sea boundary.The cone penetration test(CPT)is a convenient and effective in situ testing method which can accurately identify various soil parameters.Studies on undrained shear strength only roughly determine the fine content(FC)without making the FC effect clear.We studied four stations formed in different the Huanghe River Delta periods.We conducted in situ CPT and corresponding laboratory tests,examined the fine content influence on undrained shear strength(S_(u)),and determined the cone coefficient(N_(k)).The conclusions are as follows.(1)The fine content in the area exceeded 90%,and the silt content was high,accounting for more than 70%of all fine particle compositions.(2)The undrained shear strength gradually increased with depth with a maximum of approximately 250 kPa.When the silt content was lower than 60%–70%,the undrained shear strength decreased.(3)The silt and clay content influenced undrained shear strength,and the fitted f_(s)h/q_(t) function model was established,which could be applied to strata with a high fine content.The cone coefficients were between 20 and 25,and the overconsolidated soil layer had a greater cone coefficient.

聚丙烯纤维增强橡胶砂固结不排水剪切试验

鉴于橡胶砂作为回填材料时承载力低和变形量大的问题,采用加入聚丙烯纤维(PPF)的方法提高橡胶砂的力学性能,提出了聚丙烯纤维增强橡胶砂的半干拌式制备方法,通过48组聚丙烯纤维增强橡胶砂、普通橡胶砂和纯砂试样的固结不排水剪切试验,探究了聚丙烯纤维掺量和橡胶掺量等参数对聚丙烯纤维增强橡胶砂主要力学变形特征参数的影响.结果表明:聚丙烯纤维对橡胶砂弹性模量的影响较小;聚丙烯纤维增强橡胶砂具有先剪缩后剪胀破坏的特征,其偏应力与轴向应变关系为应变硬化型;聚丙烯纤维可有效提高橡胶砂的内摩擦角和黏聚力;聚丙烯纤维增强橡胶砂破坏偏应力的提升效果十分显著,最高可提高3倍.

钙质砂特征形状分析及不排水剪切强度研究

钙质砂的形状是影响其宏观力学性质的重要因素。人工挑选出不同特征形状(块状、片状、条状)的钙质砂,通过显微图像采集与处理技术,定义并构建了一个形状参数(偏离度α),对钙质砂的特征形状进行三维定量描述,配制3种不同形状掺量的钙质砂试样进行三轴固结不排水剪切试验,研究钙质砂的特征形状对其剪切特性的影响。研究结果表明:(1)偏离度α能够较好地对钙质砂的形状进行描述及区分,可作为一种量化钙质砂形状的有效手段;(2)钙质砂的不排水剪切强度与偏离度α有较好的相关性:若增加片状钙质砂的含量(α增加),则试样的不排水剪切强度降低,若增加条状钙质砂的含量(α减小),不排水剪切强度增大。研究成果不但加深了对钙质砂特征形状的理解,还为准确评估钙质砂的抗剪强度提供了新思路。

饱和黏土不排水抗剪强度特性研究

饱和黏土的不排水抗剪强度(su)是海洋工程地基稳定性验算必备的参数,该参数的准确性对工程安全至关重要。室内等向固结三轴压缩试验(CIUC)是工程中获得su最普遍的方法。随着对海洋土工程特性认识的加深及国际设计方法的引入,su的室内测试方法种类增加,但不同方法测得的su存在差异。针对天津滨海黏土开展不同固结方式、剪切方式以及不同超固结比(OCR)条件下的三轴压缩、三轴拉伸和静单剪(DSS)试验,分析比较了不同试验方法得到的su,并揭示了导致同一种土体su产生差异的原因,建立起不同试验方法测得的su之间的定量关系。在此基础上结合修正剑桥模型提出了可以预测不同试验方法su的计算公式。

海上风电筒型基础沉贯阻力计算黏土强度研究

沉贯阻力的准确预测对筒型基础成功应用至关重要。单剪(DSS)试验测得的不排水抗剪强度su是沉贯安装设计中的关键土参数,DSS试验考虑了K0固结下土体的应力状态、主应力旋转以及实际工程平面应变状态,与吸力式筒型安装过程中土体的受荷状态相符。研究总结了黏土中筒型基础沉贯阻力计算方法,并分析了各种方法的特点。针对黏土强度取值问题,采用单剪仪对滨海土进行等体积单剪试验,探讨了干密度ρd、法向应力σv'及超固结比(OCR)对su的影响,并分析了su差异产生的原因。最后,提出了基于临界状态理论、强度指标、SHANSEP的3种预测su的计算方法。研究成果为黏土中筒型基础沉贯阻力计算时土体参数取值提供了依据。

基于CPTU解释黏性土不排水抗剪强度方法研究

黏性土的不排水抗剪强度Su是海上风电工程设计中重要的力学参数之一,孔压静力触探测试(简称CPTU)无法直接测得黏土强度,但其所提供的锥尖阻力、侧摩阻力以及孔隙水压力与土体的不排水抗剪强度存在映射关系,国内外基于CPTU已经演化出多种解释土体不排水抗剪强度计算公式。基于滨海某海上风电项目,开展了原位CPTU试验、三轴不固结不排水(UU)、三轴固结不排水(CU)、固结快剪(CQ)以及船上微型十字板剪切(MVST)试验,对已有计算公式的适用性进行了校验,分析发现需根据区域场地情况对其中经验系数进行相应的调整以提高计算精度。研究基于CU试验结果,结合工程实例对原有公式中经验参数进行优化修正,最后通过误差分析,验证了修正预测模型的准确性与合理性,利用改进后的修正预测模型可使江苏地区海域黏性土不排水抗剪强度的计算得到更准确的结果。

Estimation of Axial Pile Bearing Capacity According to Shear Strength Parameters of Soil

At pesent, it is very popular to estimate pile bearing capacity by use of empirical formula and physical indexes of soil provided in the design codes for civil construction in China. This paper attempts to apply mechanical indexes of soil and semi-empirical formulas, which are based on soil mechanical theories and were summarized and presented by Meyerhof in 1976, to calculate the axial pile bearing capacity. Loading test results of 24 single piles in Tianjin area have been collected and compared with the proposed calulation approach.

Experimental study of seismic cyclic loading effects on small strain shear modulus of saturated sands

The seismic loading on saturated soil deposits induces a decrease in effective stress and a rearrangement of the soil-particle structure, which may both lead to a degradation in undrained stiffness and strength of soils. Only the effective stress influence on small strain shear modulus Gmax is considered in seismic response analysis nowadays, and the cyclic shearing induced fabric changes of the soil-particle structure are neglected. In this paper, undrained cyclic triaxial tests were conducted on saturated sands with the shear wave velocity measured by bender element, to study the influences of seismic loading on Gmax. And Gmax of samples without cyclic loading effects was also investigated for comparison. The test results indicated that Gmax under cyclic loading effects is lower than that without such effects at the same effective stress, and also well correlated with the effective stress variation. Hence it is necessary to reinvestigate the determination of Gmax in seismic response analysis carefully to predict the ground responses during earthquake more reasonably.

固化黄土力学特性三轴试验研究

为进一步认识固化黄土的力学特性,以郑州地区黄土为试验材料,制备不同固化剂掺量的试样,并在标准养护条件下养护至试验龄期后饱和。应用GDSTTS标准应力路径三轴仪,开展固结不排水(CU)剪切试验,主要研究围压、固化剂掺量以及养护龄期对固化黄土力学特性的影响。试验结果表明:郑州地区固化黄土具有显著的结构性,其应力应变曲线呈现出应变软化特征,并可用驼峰型三参数表达式描述;同时,增大围压和固化剂掺量以及延长养护龄期,固化黄土的峰值应力及残余应力都增大、养护龄期超过一定时间后,其对固化黄土强度的影响趋弱。

孔压静力触探试验在菲律宾某填海项目中的应用

孔压静力触探试验作为一种快速、准确的原位测试手段在国内海洋工程领域得到了广泛的应用。本文基于海床式静力触探设备在菲律宾某填海项目的成果,对比分析了ROBERTSON(1990)分类图、刘松玉等(2013)分类图和《水运工程静力触探技术规程》(JTS/T242—2020)分类图对于菲律宾填海项目的适用性,总结出第3种分类图的解译结果最优。其次对比分析了基于孔压静力触探试验的3种不同细粒土不排水抗剪强度解译方法在菲律宾填海项目中的适用性,总结出基于净锥尖阻力的解译方法结果最优。并基于该方法绘制了细粒土不排水抗剪强度剖面,值得在其它填海项目中进一步推广应用。

不同应力路径下上海软黏土三轴不排水剪切孔压的对比

软黏土不排水剪切过程中的孔隙水压力分析是软土工程的一个重要研究方向。三轴试验是研究软黏土不排水剪切孔压及孔压系数的传统方法,而孔压以及孔压系数的大小与应力路径以及剪应变的大小有关。利用GDS应力路径三轴仪,对上海软黏土原状土样与重塑土样进行了三轴ICUC(等压固结压缩剪切),三轴ACUC(K0固结压缩剪切)和三轴ACUE(K0固结拉伸剪切)三种应力路径的不排水剪切试验,对比这三种试验的剪切孔压及孔压系数的大小及变化规律,给出结构性以及各向异性对剪切孔压的影响规律。最后根据试验结果给出了上海软黏土在变形较大情况下的剪切孔压—应变双曲线模型的参数,可供设计计算采用。

各向异性固结下饱和珊瑚砂的不排水循环反应特性

珊瑚砂是海洋成因的碳酸盐土,碳酸钙含量大于90%,由于其赋存条件特殊,波浪与地震作用导致珊瑚砂的循环应力状态异常复杂。为探究复杂静、动应力状态下饱和珊瑚砂的不排水循环反应特性,利用GDS空心圆柱扭剪仪对南沙珊瑚砂开展不同固结条件下90°跳转循环应力路径的系列不排水循环剪切试验。试验结果表明:各向异性固结条件下,超静孔压u_(e)和广义剪应变γ_(g)的增长速率随固结方向角α_(c)的增大而显著增加,而随固结比kc的增大而显著降低。在相同固结条件下,u_(e)和γ_(g)的增长速率随循环加载方向角α_(σ)的增大表现出先增后减的趋势。提出循环偏应力比q_(a)/S_(PT)(循环偏应力幅值q_(a)与不排水单调剪切试验得到的相变强度SPT之比)作为循环应力水平指标,不同的固结条件和循环加载路径下,饱和珊瑚砂的抗液化强度曲线有唯一性,且q_(a)/S_(PT)与失效循环次数N_(L)呈负幂函数关系。结合修正的SPT预测公式,以q_(a)/S_(PT)作为表征复杂静、动应力条件下抗液化强度指标更具简单且适用范围宽的优点。

不同循环加载方式下饱和珊瑚砂的液化流动特性

循环荷载作用下饱和砂土的超静孔压累积是导致土体液化的原因,将可液化砂土视为流体是一种较新的液化研究思路。通过循环应力主轴90°跳转和连续旋转的均等固结、不排水循环剪切试验,探究了不同循环加载方式下饱和珊瑚砂的液化流动特性,发现以初始表观黏度η0规准的表观黏度比η/η0与超静孔压比ru的关系受循环应力路径的影响显著,η/η0随ru的增大而渐进衰退;而平均流动系数k随r_(u)的增长呈指数函数形式增大。循环应力比CSR(CSR=0.25~0.40)和循环加载频率f(f=0.1~1 Hz)对η/η0-ru和k-r_(u)关系的影响均不敏感。不论循环应力主轴90°跳转或连续旋转,发现表观黏度梯度和平均流动系数梯度均随ru的增大呈现出先增后减的特征,其反转点的ru≈0.9,可视为饱和珊瑚砂由固态向液态转变的相变孔压比ruth,以相应的相变平均流动系数k_(th)规准的k/k_(th)-r_(u)的所有试验数据点处于一个窄带内,且k/k_(th)随r_(u)增长服从指数函数关系。

不同循环应力路径下饱和珊瑚砂超静孔压增长的改进应力模型

为探究复杂循环加载下不同相对密实度D_(r)的珊瑚砂超静孔压u_(e)增长特性,利用GDS空心圆柱扭剪仪对饱和珊瑚砂进行了系列循环应力主轴90°跳转的均等固结不排水循环剪切试验。试验表明,循环应力路径、应力水平和D_(r)显著影响饱和珊瑚砂u_(e)增长模式;建立了适用于不同D_(r)和循环加载模式的超静孔压比r_(u)表达式,引入单元体循环应力比USR作为表征复杂循环应力路径的应力指标,给出了模型参数λ_(1)和θ基于USR和D_(r)的表达式。所建立的r_(u)表达式对复杂循环加载模式下不同D_(r)的饱和珊瑚砂r_(u)增长有较好的预测效果。文献中不同类型砂的试验数据独立验证了所建立的r_(u)表达式的适用性。

孔压静力触探在澳门海相软土强度解译中的应用

在海洋岩土工程勘察和设计中,不排水抗剪强度是尤为重要的强度参数。为了精确评价海相软土的不排水抗剪强度,依托澳门国际机场扩建工程场地的孔压静力触探试验与十字板剪切试验资料,对海相软土的不排水抗剪强度进行计算,并提出了锥尖因子N_(kt)与归一化有效锥尖阻力Q_(E)的线性相关关系,基于这种线性关系所预测的不排水抗剪强度与十字板剪切试验结果更相符。同时,所给出的锥尖因子可以反应原位土体很好地沿深度方向的空间变异性。对于澳门海相软土强度参数可采用文中标定得到的N_(kt)-Q_(E)关系进行解译,为设计提供可靠的岩土设计依据。

水域CPTU与DMT在土体强度特性评价中的应用

基于多元原位测试数据融合的研究方法在岩土工程勘察中已成为趋势,在提高预测参数精度和评价土体强度特性中具有明显优势。为解决水域工程勘察中取样困难、岩土参数空间变异性大、土体力学特性存在区域性和结构性的难题,以江苏省海太过江通道工程为研究对象,基于水域孔压静力触探试验CPTU、水域扁铲侧胀试验DMT和室内土工试验,研究了场区软黏土的不排水剪切强度、砂性土的内摩擦角以及不同土性指标土层的侧限模量。结果表明:CPTU和DMT均可提供丰富的土体物理力学参数,对土体的强度特征参数响应灵敏,联合2种试验的参数表征土体强度特性具有可行性;基于CPTU锥尖阻力、净锥尖阻力得到砂性土有效内摩擦角偏大,而基于DMT侧胀水平应力指数KD得到的有效内摩擦角略小;DMT侧限模量与CPTU锥尖阻力之间具有良好的相关关系,通过拟合关系式可将刚度与强度联系起来,该关系式还考虑了土性指标的影响,可作为一种新方法来预测土体侧限模量。