共查询到19条相似文献,搜索用时 265 毫秒
1.
岛礁工程建设常用珊瑚砂吹填地基或作为土工构筑物的填料。珊瑚砂在填筑期的应力路径具有静止土压力系数K0固结和等应力比路径的特点,为了准确预估填筑期的填土变形量,需要建立能够反映填土应力路径影响的变形计算模型。根据广义虎克定律,建立了幂律形式的非线性弹性模型来描述土体的应力-应变关系,提出了变形参数的表达式。对珊瑚砂开展了K0固结试验和等应力比路径下的排水三轴压缩试验,分析了珊瑚砂的应力-应变曲线和颗粒破碎状况,研究了幂律应力-应变模型的适用性,并将模型计算结果与试验曲线进行了对比。结果表明:填土路径下的应力-应变曲线具有幂函数曲线形式,可以用幂律非线性弹性模型来描述。模型的切线模量和切线泊松比均可以表示为轴向有效应力的函数,并通过与主应力比或系数K0相关的参数得到表达。等应力比路径下的切线泊松比和切线模量随着轴向有效应力的增加而增大。在相同的轴向有效应力条件下,主应力比越大,切线模量越大,切线泊松比越小。随着轴向有效应力的增加,K0固结珊瑚砂的静止土压力系数和切线泊松比减小,切线模量增大。在试验应力范围内,填土路径下珊瑚砂的颗粒破碎量都很小,对应力-应变特性的影响不大。幂律模型合理地预测... 相似文献
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将砂与黏土按不同比例干重量均匀混合制成砂-黏混合土,进行不排水三轴剪切试验,研究了含砂量和试验围压对混合土初始切线模量和应力-应变关系的影响,并对其作用机理进行了分析。研究结果表明:含砂量小于50%时,可以认为混合土初始切线模量与含砂量无关。含砂量大于50%小于80%时,初始切线模量随含砂量增加呈线性趋势增长。通过把含砂量参数引入到初始切线模量中对Duncan-Chang模型进行修正,使修正后的模型能够描述含砂量小于80%时混合土的应力-应变关系。当含砂量超过80%,混合土呈应变软化型,随含砂量的增加,初始切线模量逐渐保持稳定,应力-应变曲线峰值应变左移,可应用软化模型对其应力-应变关系进行描述。围压对混合土应力-应变关系有很大影响,在双对数坐标中,随试验围压的增大,初始切线模量呈线性趋势增长。 相似文献
3.
钙质砂是海洋钙质生物死亡后形成的一种具有丰富内部孔隙、低强度、不规则形状和易破碎的岩土材料。通过对钙质砂分别开展的等向压缩、常规三轴压缩、平均主应力为常数的三轴压缩、减压的三轴压缩和等应力比加载5种试验,探讨了不同应力路径下钙质砂的力学及变形特性。试验结果表明应力路径对钙质砂的抗剪强度和变形特征具有重要影响。钙质砂在等向压缩条件下具有明显的各向异性特征;常规三轴压缩试验条件下,密实钙质砂呈现低压剪胀、高压剪缩的变形特征,且峰值强度与初始固结压力之间呈幂函数关系;平均主应力为常数的三轴压缩试验中,增加偏应力会引起试样的体变;与常规三轴压缩试验不同,在减压的三轴压缩试验中,应力-应变关系曲线均表现为应变软化;而等应力比加载试验中,试样基本处于弹性状态下,且轴向应力与轴向应变之间呈幂函数关系。试验结果还发现钙质砂的切线泊松比不仅要考虑钙质砂的变形和应力状态等的影响,还要考虑应力路径的影响。不同应力路径试验条件下峰值应力比大小顺序与最大体变大小顺序不受初始固结压力的影响。钙质砂的峰值内摩擦角均随着初始固结压力的增大而减小,大致与初始固结压力的对数呈线性函数关系。 相似文献
4.
在常规应力水平下颗粒发生破碎是钙质砂有别于其他砂土的重要性质之一,且由于颗粒破碎的存在,使用传统的本构模型无法很好地模拟钙质砂的力学行为。因此本文以最为普及的本构模型之一--邓肯-张E-B模型为基础,对其进行颗粒破碎方面的修正以得到一个能用于钙质砂的本构模型。具体方法为:首先本文采用Hardin提出的相对破碎Br这一指标来度量颗粒破碎的大小。之后研究分析得出了颗粒破碎对邓肯-张模型参数(内摩擦角φ、割线模量E50及体积模量B)的影响规律。然后通过颗粒破碎与输入能量之间的关系将各状态下无法直接确定的相对破碎Br与可确定的应力-应变状态联系起来。最终得到了一个考虑颗粒破碎的钙质砂修正邓肯-张E-B模型。为验证模型的准确性及适用性,本文还使用该模型对4种不同粒径范围且试验围压不同的钙质砂的三轴排水行为进行了模拟。结果表明拟合效果较好,模型能适用于各种不同粒径范围的钙质砂,并且在颗粒破碎较大的情况下明显优于传统邓肯-张模型。 相似文献
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6.
橡胶砂作为一种环保的岩土材料有广泛的应用前景。应用三轴和单剪两种试验方法对2种固结压力下、7种配比橡胶砂的应力-应变特性、体变特性和模量衰减特性进行了对比研究,结果表明:随着橡胶颗粒含量的增加,橡胶砂模量降低,应力-应变曲线向应变硬化型转变,线性关系增强;随着橡胶颗粒含量的增加,橡胶砂剪胀特性减弱,剪缩增大;橡胶砂应力-应变关系可用扩展邓肯-张模型进行模拟,模型参数受橡胶颗粒含量影响的规律明显;随着橡胶颗粒含量的增加,橡胶砂的静剪切模量Gs与剪应变? 曲线降低,而橡胶砂模量衰减曲线Gs /G0 -?(G0为初始剪切模量)向大应变方向偏移;三轴和单剪两种试验方法得到的橡胶砂应力-应变特性、体应变-剪应变规律类似,但试验参数明显受应力状态和应力路径的影响,两者的差异主要表现为三轴试验得到的应力-应变曲线和模量曲线高于单剪试验,产生这种差异的主要原因是由于前者的平均应力相对较大。试验还得到了橡胶砂初始模量随橡胶颗粒含量降低的经验关系。 相似文献
7.
《岩土力学》2017,(6):1550-1556
采用悬挂式防渗墙的坝基砂砾石土中可能发生潜蚀(suffusion)侵蚀而流失细颗粒,导致土体的强度和变形模量降低,从而对坝基防渗墙及上部坝体造成不利影响。定量描述细颗粒流失量对砂砾石土应力-应变关系影响的模型是定量评估这种影响的基础之一。提出了研究这种本构模型的试验方案,进行了三轴和侧限压缩试验研究了颗粒流失量对应力-应变关系的影响。颗粒流失未改变土体的应力-应变特性,但降低了土体的强度和变形模量。通过建立模型参数与流失量的关系,可以用同一个本构模型描述流失量时空变化的砂砾石土本构关系。基于邓肯E-B模型,建立了模型参数与颗粒流失量之间的定量关系表达式,从而实现了颗粒流失对应力-应变关系影响的定量描述方法。 相似文献
8.
为了揭示钙质砂在一维压缩回弹作用下的压缩变形、颗粒破碎特性以及声发射规律,对钙质砂进行了3种相对密实度下不同粒组的一维压缩回弹实验和声发射实验。通过对不同粒组、不同相对密实度的钙质砂进行一维压缩实验和同步的声发射实时监测,获得其压缩、回弹和声发射特性,最后通过筛分获得实验后的颗粒粒径分布,得出相对破碎势Br。实验结果表明:钙质砂的压缩变形由颗粒位置调整和破碎两部分组成,其中颗粒破碎是产生压缩变形的主要因素,回弹曲线近似一条直线,表明压缩变形为不可恢复的塑形变形;压力相同时颗粒粒径越大,相对破碎势Br越大。颗粒形状不同致使颗粒间填充作用与嵌合作用不同,影响颗粒的滑移与重排列,进而影响颗粒的压缩变形。两种砂的声发射计数率随粒径增大而增大,且都集中出现在800~3200 kPa的压缩阶段,钙质砂的压缩变形及破碎特性与其声发射特征具有一致性,钙质砂声发射计数率与时间关系曲线和应力与时间关系曲线吻合较好,可通过声发射计数率与时间关系曲线来反映钙质砂的力学特性。钙质砂存在一个声发射事件最少的“临界孔隙比”,本次实验中1~2 mm钙质砂临界孔隙比为1.33~1.41,试样的初始孔隙比偏离该临界值时,声发射活动会有不同程度提高。 相似文献
9.
鉴于Jaumann率型本构关系难以得到应力应变全量之间的严格解析形式,采用有限元法研究了一维大变形过程中Kirchhoff应力和Green应变之间的变化规律。首先,基于虚功原理推导了完全拉格朗日描述的大变形有限元方程,然后提出了模拟大变形本构关系的双曲线模型和割线模量处理方法。算例分析结果表明,双曲线模型能够较好地拟合大变形本构关 系。大变形计算本构关系应当考虑初始孔隙比的影响。 相似文献
10.
土的应力-应变关系的一种描述模式 总被引:1,自引:0,他引:1
通常将由土的剪切试验测得的应力-应变关系曲线(q~ε1曲线)分为应变硬化型和应变软化型,文中提出了一种能同时描述应变硬化型q~ε1曲线和应变软化型q~ε1曲线的新模式,并导出了统一的切线模量表达式,进一步探讨了该应力-应变关系曲线描述模式在拟合应变硬化型曲线时的简化形式,及简化形式中参数取值方法和参数与围压的关系等方面的问题。通过与邓肯-张模型和应变软化模型的对比,结果表明该应力-应变关系曲线描述模式能更好地与试验数据吻合,且用其简化形式拟合应变硬化型曲线时,可以通过调整其中一个参数值来表达出不同的曲线形式,从而体现出土体应力-应变关系的多样性。该应力-应变关系描述模式为发展更一般的非线性弹性模型提供了一定的理论基础。 相似文献
11.
This paper evaluates the performance of a generalized effective stress soil model for predicting the rate independent behaviour of freshly deposited sands, while a companion paper describes model capabilities for clays and silts. Most material parameters can be obtained from standard laboratory data, including hydrostatic or one‐dimensional compression, drained and undrained triaxial shear testing. A compilation of data on compression behaviour allows for estimation of compression parameters when this type of data is not available. Extensive comparisons of model predictions with measured data from undrained triaxial shear tests shows that the model gives excellent predictions of the transition from dilative to contractive shear response as the confining pressure and/or the initial formation void ratio increases. A parametric study of drained response shows that the model describes realistically the variation of peak friction angle and dilation rate as a function of confining pressure and density when compared with an empirical correlation valid for many sands. The proposed formulation predicts a unique critical state locus for both drained and undrained triaxial testing which is non‐linear over the entire range of stresses and is in excellent agreement with recent experimental data. Overall, the model provides excellent predictions of the stress–strain–strength relationships over a wide range of confining pressures and formation densities. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献
12.
针对非饱和重塑黏土,利用改进的非饱和土静力-动力液压三轴-扭转多功能剪切仪,在固结排水(CD)条件下进行了应力控制式分级加载的循环三轴试验,通过对试验结果的对比分析,探讨了初始固结压力和基质吸力(孔隙气压力Ua与孔隙水压力Uw之差)对非饱和土动应力-动应变关系特性的影响。以此为基础,将Hardin-Drnerich等价黏弹性模型和Masing加卸载准则进行了改进,并得到了可以考虑基质吸力的非饱和黏土的等价黏弹性模型。进而对试验数据与模型预测结果进行比较,结果表明这种改进的非饱和土等价黏弹性模型能较好预测各种基质吸力下非饱和土的动应力-动应变关系。 相似文献
13.
This paper deals with the efficacy of creating artificial carbonate sand from crushed chalk to model the natural carbonate
sand. Direct drained shear using 100 mm shear box and compressibility tests using 150 mm Rowe cell have been performed on
artificial carbonate sand in order to determine the shear stress-strain and compressibility characteristics of the artificial
material. These are compared with data from natural carbonate sands given in the literature. The results obtained demonstrate
that shear stress-strain and compressibility characteristics of the artificial material closely mirror that of natural carbonate
soils. The artificial carbonate sand shows generally similar characteristics, which are in the range of the natural carbonate
material. 相似文献
14.
This paper presents a constitutive model for describing the stress-strain response of sands under cyclic loading. The model, formulated using the critical state theory within the bounding surface plasticity framework, is an upgraded version of an existing model developed for monotonic behaviour of cohesionless sands. With modification of the hardening law, plastic volumetric strain increment and unloading plastic modulus, the original model was modified to simulate cyclic loading. The proposed model was validated against triaxial cyclic loading tests for Fuji River sand, Toyoura sand and Nigata sand. Comparison between the measured and predicted results suggests that the proposed modified model can capture the main features of cohesionless sands under drained and undrained cyclic loading. 相似文献
15.
Awad A. Al-Karni 《Arabian Journal of Geosciences》2011,4(7-8):1095-1101
The shear strength of cohesionless soil is reduced as the water pressure inside the pores of the soil mass increases. The mathematical relationship between the shear strength and the pore water pressure was derived using Mohr–Coulomb failure criteria as a function of the confining pressure and the effective angle of friction. Experimentally, a series of consolidated drained triaxial tests with back pore water pressure was run on samples of saturated uniform dense sand. The tests were conducted at different confining pressures in the range of 100–400 kPa with an increment of 100 kPa. At each level of confining pressure, the tests were repeated at different values of back pore water pressure in the range of 0–100 kPa with an increment of 25 kPa. For each test, the initial applied back pore water pressure was kept constant during the test for comparing the results at the same effective confining pressure. This study concludes that the mathematical relationship gives accurate results at any level of confining pressure and/or pore water pressure as a function of the effective angle of friction that can be evaluated using single consolidated drained triaxial test at zero back pore water pressure. 相似文献
16.
Silt is available in many parts of the world in combination with sands and clays. However, due to lack of clear understanding of its engineering behaviour, most of the time it is interpreted in terms of either sands or clays. Structures that are usually built on silty soils are designed to take into account design procedures developed for sandy or clayey soils. Presence of silts in combination with varying amount of sand and clays produces silt that is either plastic or non-plastic in nature. Silt is available in and around the Delhi region, in a majority mixture along with fine sands, which is non-plastic in nature. On the other hand silty deposits found in offshore Bombay High region are found in abundance along with significant amounts of clays and are termed as plastic silts. In this paper a comparison of the stress-strain behaviour of plastic and non-plastic silts is carried out under triaxial compression loading during both drained and undrained conditions. Two representative samples each from Delhi and Bombay High regions were considered for this comparison and results of stress-strain under four sets of confining pressure are discussed in detail. It is observed from this study that behaviour of silts is mainly dependent on the composition and structure of the resultant soil matrix. It is concluded from the results that shear strength parameters as well as volume change/pore pressure response of silty soils is dominated by the constituent soil present along with the silt. It is seen from the comparative behaviour of non-plastic and plastic silts that the presence of sand and clays has a governing effect on pore pressure development and the resultant friction angle. The study also corroborated that the nature of silt is transitional both in the case of plastic and non-plastic forms. 相似文献
17.
适用于砂土循环加载分析的边界面塑性模型 总被引:1,自引:0,他引:1
基于临界状态土力学框架,建立了一个适用于砂土排水循环加载的边界面塑性模型。采用了考虑虚拟峰值应力比的偏应变硬化准则,初始加载阶段应力点位于边界面上,反向加载阶段以历史最大屈服面作为边界面,同时实现了对密砂软化现象的模拟和对历史所受最大应力的记忆。边界面采用修正的椭圆形,引入考虑密度与应力水平的状态相关剪胀函数,采用非相关联流动法则和以应力反向点作为映射中心的径向映射准则。模型仅有10个参数,通过常规三轴试验即可确定,并且使用一套参数可以模拟不同围压、密度的单调和循环加载情况。分别对饱和砂土的单调、循环排水三轴试验进行模拟,结果表明,该模型能够合理地反映饱和砂土排水条件下的应力-应变特性。 相似文献
18.
建立尾砂的本构模型是开展尾矿坝数值模拟和安全评价的重要基础,而目前尾砂的本构模型研究多集中于非线性弹性模型,如Duncan-Chang模型,关于弹塑性模型的研究较少。结合尾砂的应力-应变特性,提出了一种适用于描述尾砂力学特性的改进广义塑性模型。基于用户自定义材料子程序UMAT,将提出的模型在ABAQUS中二次开发实现,应力积分采用Runge-Kutta显式积分。通过三轴试验模拟验证,偏差应力曲线表明,有限元计算结果可以反映围压对应力-应变关系的影响,抗剪强度随应变逐渐硬化,达到峰值强度,随后发生应变软化,抗剪强度有所下降。体应变曲线结果表明,广义塑性模型可以很好地描述体应变曲线的体缩-体胀发展过程,与试验曲线吻合较好。同时有限元数值模拟结果和理论值误差很小,且和试验结果拟合较好。该研究成果可进一步用于尾矿坝的应力变形计算和安全评价。 相似文献
19.
干湿-冻融循环下延吉膨胀岩的力学特性及其应力-应变归一化 总被引:2,自引:0,他引:2
为了研究干湿、冻融和干湿-冻融循环作用对延吉膨胀岩的应力-应变关系、体变特性、抗剪强度的影响,开展了一系列的固结排水剪切试验。结果表明:未循环试样的应力-应变关系曲线表现为稳定型或弱应变软化型,3种环境作用后试样应力-应变关系曲线呈现出一定的应变软化特性,剪胀明显,而且围压越小、循环次数越高的试样软化和剪胀的程度越高;随着循环次数的增加,3种环境作用下试样的黏聚力急剧减小,而内摩擦角略有增加;干湿-冻融循环作用下试样的应力-应变关系软化程度最高,剪胀最显著,试样的黏聚力降低的幅度最大。基于Konder双曲线模型,对循环处理前后试样的应力-应变特性进行归一化分析,建立了考虑干湿-冻融循环次数和围压影响,能同时描述应变软化型和硬化型的应力-应变关系式,并对不同干湿-冻融循环次数试样的应力-应变曲线进行预测,预测值与实测值较为接近,预测效果较好。 相似文献