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1.
为了更准确地描述膨胀土应力松弛的力学特性,应用分数阶微积分理论构造的软体元件取代传统元件模型中的理想黏滞元件,并考虑黏滞系数的损伤劣化,建立了可以更加准确地反映南宁膨胀土非线性应力松弛特性的三元件模型。通过一系列室内试验研究,探索了在不同含水率条件下南宁膨胀土的应力松弛规律,并根据对试验结果的分析,确定了相关的模型参数,得到了膨胀土在不同含水率条件下的应力松弛方程。与整数阶西原模型和整数阶St.Venant模型进行对比,其结果表明所提出的改进模型能更有效地模拟膨胀土应力松弛的全过程,且模型具有结构简单、计算参数少、计算精度高和便于实际应用等优点。研究结果为膨胀土在长期荷载作用下的应力松弛分析提供了理论基础。 相似文献
2.
采用蒸汽平衡法测定了4种温度(T=5、25、40、60℃)条件下Whatman No.42滤纸的率定曲线,建立了考虑温度影响的双线性率定曲线方程,发现滤纸的持水性能随温度升高而降低,且温度对率定曲线高吸力段滤纸持水性能的影响要弱于低吸力段。在此基础上,以南宁膨胀土为研究对象,使用滤纸法测定了不同温度作用下膨胀土试样的土-水特征曲线。试验结果表明,随着温度的升高,膨胀土持水性能下降,但温度的影响幅度会随着吸力的增大而减弱,当基质吸力达到40MPa时,不同温度下试样的体积含水率并没有明显变化,即此时温度对膨胀土的持水性能变化几乎无影响。为解释上述宏观现象,选取部分试样进行了压汞试验和吸附结合水试验,并根据试验结果从土体中各相及各相界面相互耦合作用的物理机制角度阐述了南宁膨胀土持水性能的温度效应及微观机制。 相似文献
3.
湿胀条件下合肥膨胀土土-水特征研究 总被引:3,自引:0,他引:3
膨胀土在吸水时会产生体积膨胀,研究湿胀条件下膨胀土的土-水特征具有重要意义。以合肥地区9种弱膨胀土为研究对象,采用滤纸法和渗析法试验测定了膨胀土的土-水特征,采用蒸汽加湿法试验测定了膨胀土在吸湿过程中的体积变化。基于土-水特征曲线(SWCC)试验及加湿试验,获得了膨胀土在吸湿过程中的体积变化规律,得到了湿胀条件下膨胀土的重力含水率?基质吸力曲线(w-ψ曲线)及体积含水率?基质吸力曲线(θw3-ψ曲线),分析了膨胀土吸湿过程中的体积变化对体积含水率?基质吸力曲线的影响,探讨了w-ψ与θw3-ψ曲线拟合参数的变异性及参数间的相关性。结果表明:蒸汽法加湿土样是一种较为理想的增湿方式;湿胀条件下,w-ψ曲线与考虑体变的θw3-ψ曲线的差异程度与吸湿结束后的土样含水率有关;w-ψ曲线的变异性小于θw3-ψ曲线的变异性;拟合参数n的变异性小于参数a及m的变异性;w-ψ曲线及θw3-ψ曲线的对应拟合参数间呈线性关系。 相似文献
4.
针对小河沟膨胀土隧道降雨增湿塌方现象,以围岩含水率分布变化引起膨胀应力场为主要研究内容,展开增湿对隧道支护结构的影响研究。首先,利用热传导热能量平衡方程与孔隙渗流连续方程数学描述相似性,推导出热传导膨胀模拟增湿膨胀的替代方程。然后,结合室内试验和文献资料,率定膨胀土膨胀力及渗流参数。最后,在正确考虑地质构造影响的基础上运用有限差分软件FLAC3D热-力耦合模块进行建模计算,分别对不同膨胀力模型的增湿过程进行仿真模拟,得出支护结构受力变形随含水率分布及膨胀力大小的变化规律。分析得到了对隧道支护结构造成不良影响的关键含水率和膨胀力值。研究成果可以有效指导膨胀性黄土隧道支护设计和变形控制。 相似文献
5.
利用四联装等应变直剪仪,对南宁非饱和重塑膨胀土进行一系列室内剪切应力松弛试验,探讨南宁非饱和重塑膨胀土的剪切应力松弛特性,得到诸多有益的结论。试验结果表明,不同初始条件下的剪切应力松弛曲线均属于不完全衰减型,剪切应力逐渐减少并趋于一个稳定值;膨胀土的松弛曲线都可以明显的分成3个阶段:瞬间松弛阶段、衰减松弛阶段、稳定松弛阶段。不同初始条件下不同时刻的剪切应力-应变等时关系曲线都是非线性的曲线,说明南宁膨胀土具有明显的非线性流变特性,是弹、黏、塑性体。膨胀土的含水率越高,或者竖向荷载越小,或者初始应变越大,或者时间越长,则膨胀土的流变特性及其非线性程度就越高。对试验结果的分析,通过改进剪切应力对数与时间对数的线性关系,建立南宁膨胀土在直剪条件下的非线性剪切应力松弛经验方程,能较好地拟合试验结果。非线性经验模型考虑了应变水平对应力松弛的影响,直观地反映出南宁膨胀土的非线性应力松弛特性,更加符合工程实际,可为膨胀土非线性应力松弛问题的计算分析提供理论依据。 相似文献
6.
膨胀土膨胀模型及边坡工程应用研究 总被引:1,自引:0,他引:1
膨胀土吸湿膨胀往往会导致工程安全问题。以南阳中膨胀土为研究对象,通过改良试样进水控制系统、测量外体变等措施,实现三轴应力状态膨胀试验,研究充分吸湿引起的体积膨胀率、终了含水率与初始含水率、平均主应力之间的规律关系。试验发现:三轴应力状态下的体积膨胀率与终了含水率均随平均主应力的增大而减小,且在半对数坐标中均呈较好的线性关系,据此建立了三轴应力状态的膨胀模型。将该膨胀模型应用到数值计算中,分析了考虑膨胀变形对膨胀土边坡应力场分布的影响规律,比较了充分吸湿条件下不同膨胀等级的膨胀土边坡的塑性区发展特征,并针对不同厚度换填处理措施进行了效果验证。研究表明:该膨胀模型表达式简洁,参数求取简单,用于数值计算成果合理可靠,具有较强的实用性。 相似文献
7.
8.
对膨胀土膨胀性这一难题,目前通用的做法是施加一个膨胀力,但是无法给出一个合理的解释,膨胀力的大小也是根据经验来施加的,本文提出了膨胀土的膨胀模型(ESEM)并根据土坡的位移采用反演方法来确定了膨胀土的膨胀力;采用公式推导的方式,指出给膨胀土施加膨胀力和施加膨胀变形是一致的;结合降雨分析,运用Drucker-Prager模型编制了有限元程序,选用2范数进行反演运算;计算过程显示,膨胀土膨胀参数与2范数是单值连续具有凹点的,采用牛顿迭代法迭代,计算得出膨胀土膨胀参数;最终的计算结果,确定了膨胀土边坡的膨胀参数以及膨胀力公式。 相似文献
9.
南宁膨胀土非线性流变模型研究 总被引:1,自引:0,他引:1
对南宁非饱和膨胀土进行一系列的加载-卸载固结蠕变试验,得到了不同含水率的膨胀土在不同应力水平下应变-时间曲线和不同时刻的应力-应变等时曲线簇。通过对膨胀土各阶段蠕变变形的分析,得到了膨胀土的固结蠕变是包含有黏弹性变形和黏塑性变形成分的非线性蠕变。采用模型流变与经验流变理论相结合的方法,将膨胀土的蠕变变形分成线性和非线性两部分进行分析,蠕变柔量和线性黏弹性模量随时间减小,而线性黏塑性模量随时间增大。结合膨胀土的线性黏塑性模型和非线性黏塑性经验模型,建立能够描述膨胀土非线性流变的黏塑性本构方程。根据试验所得数据,通过非线性拟合方法得到各模型参数,用该模型进行数值分析得到的理论与蠕变试验结果对比非常吻合。研究成果为实际工程提供了流变变形计算分析的可靠依据。 相似文献
10.
以不同初始压实状态下的南阳中膨胀土为对象,在常规固结仪上开展侧限膨胀试验及采用GDS三轴仪进行恒定偏差应力的三轴膨胀试验,通过多元非线性拟合分析,分别获得考虑初始压实度、含水率、上覆压力耦合关联影响的K0膨胀模型以及体积膨胀率与球应力(体积应力)关系的三轴膨胀经验模型。基于K0膨胀模型,提出了压实土膨胀潜势能的定量计算公式,并推导出膨胀土边坡处理层厚度的理论计算方法。基于膨胀体积应变只随球应力变化而不受偏差应力影响的假设条件,分析了同一起始条件下,膨胀土K0模型与三轴膨胀模型的内在关联,并建立了通过K0模型推算三轴应力条件下体积膨胀率的理论方法。试验结果表明:采用多因素耦合的K0膨胀模型预测压实土膨胀势具有较好的准确度及合理性;联系K0模型与三轴膨胀模型的纽带在于假设侧限膨胀全程存在一个平均静止侧压力系数,采用反演方法得到平均侧压力系数呈现随上覆压力增大而减小的趋势,这种变化规律的根本原因则在于侧向膨胀力随上覆压力的增大而减小。 相似文献
11.
Factors affecting the complex permittivity spectrum of soil at a low frequency range of 1 kHz–10 MHz
To establish the factors affecting the permittivity spectrum of soil in the low frequency range, the complex permittivities
of soils were measured at the frequency range of 1 kHz–10 MHz. The effects of frequency, water content, soil types and heavy
metal contamination on the dielectric response were evaluated and their theoretical mechanisms were discussed. Measurement
distortions such as electrode polarization in the low frequency measurements were identified. The permittivity of the soil
was analyzed at frequencies above 100 kHz, which was experimentally determined to be the limiting lower frequency. The real
permittivities of the soils were strongly related to the volumetric water content, since it is determined by the polarizability
of the free water. The effective imaginary permittivities of soils increased with volumetric water content due to the increase
in conduction losses. The spatial polarization and conduction loss were found to be the main mechanism in the real and effective
imaginary permittivity, respectively. Since such mechanisms are influenced by the specific surface area of the soil particles,
the presence of particles with high specific surface area in the soil matrix was found to affect the permittivity of soil.
Contamination of saturated soil by cationic species resulted in decreases in the real permittivity due to the decreased orientation
polarization of water molecules caused by hydration of ions, but increases in the effective imaginary permittivity due to
ionic conduction. 相似文献
12.
Man-Il Kim Nam-Won Kim Il-Moon Chung Gyo-Cheol Jeong 《Environmental Earth Sciences》2010,60(6):1153-1164
A dielectric measurement device called a frequency domain reflectometry (FDR) has been designed and constructed for the dielectric
measurement of unsaturated soil consisting of a volumetric soil water content of about 0.1, 0.2, and 0.3 m3/m3 with different soil porosity around 0.40–0.45, respectively. The dielectric constant is measured in the frequency range 1 GHz.
Soil calibration tests and tracer injection tests on standard sand and river sand are carried out in the laboratory. FDR measurement
probes at different soil depths allow volumetric soil water content and dielectric constant measurements. The tracer concentration
in the pore water is monitored by determining the dielectric constant, from the soil impedance. From the relationship between
volumetric soil water content and dielectric constant, the specific calibration equations for the unsaturated soils were derived,
and one can easily estimate the volumetric soil water content from the response of the measured dielectric constant for the
soils. In the study of dielectric mixture models using α-value of 0.5 which is dielectric geometric factor, the effective porosity for the soils was computed to a range of 87–92%
compared with the soil porosity. 相似文献
13.
The behavior due to rainfall infiltrating the ground plays a role in landslides, groundwater recharge and various other ground
responses. Most of these geotechnical behaviors have a correlation between soil pore space and soil volumetric water content
in the unsaturated and saturated soil porous media. Therefore, the soil porosity associated with soil pores and the distribution
of volumetric water content are significantly important hydrological characteristics. In the case of shallow slope failure
such as landslide, the infiltration activity due to the connectivity of soil pore spaces in a porous media is induced. Slope
failure may be attributed to the effect of a wetting front with the slope due to liquid infiltration, which changes the volumetric
water content, soil matric suction and shear strength of the slope. This study was performed with an unsaturated injection
test using a frequency domain reflectometry (FDR) dielectric device which measures the dielectric constant of unsaturated
soil and the study then proposed the unsaturated dielectric mixing models to calculate soil porosity and effective porosity
of unsaturated soils. From the experimental results the ratio of effective porosity to porosity of soils are measured in a
range of 70–85%. These experimental results show a decrease of about 5–10% for unsaturated soil compared to the ratio of effective
porosity to porosity of saturated soil. The infiltration passages of tracer material are restricted within the pore connectivity
in the unsaturated soil which is caused by dead-pores in the soil. Using the FDR device and the unsaturated dielectric mixing
models, we can consider the acquisition of physical properties to detect the infiltration activity, the response of the dielectric
constant along with the injected tracer and hydrological parameters for the unsaturated soil porous media. 相似文献
14.
冻结土壤介电常数混合模型机理研究 总被引:3,自引:1,他引:2
介电常数是微波辐射传输理论所需的最重要、最基本的参数。通过研究平均温度低于-4℃,组分中含有冰的土壤——冻结土壤,建立了一种适用于微波波段冻结土壤的介电常数混合模型。该模型考虑了土壤温度、微波频率、土壤质地以及其中未冻水含量的影响。模型使用一点法计算未冻水含量,引入Stern双电层理论计算冻结土壤未冻水的介电常数,引入Maxwell-Garnett介电常数混合理论、介电常数容积混合理论构建冻结土壤介电常数混合模型。模型计算结果与实测资料进行了详细的对比分析,冻结土壤介电常数混合模型给出的介电常数实部、虚部的曲率与实验结果很好吻合,模型结果比较满意,对比分析证实了模型的可靠性。 相似文献
15.
基于改进的室内膨胀能测定实验,联合静力压入法的试样制作新方法,以功能原理为出发点,从能量的角度对南宁膨胀土的膨胀能进行了试验研究和理论分析,探讨了南宁膨胀土的静力压实功和膨胀释放能与含水量、干密度之间的关系。试验表明,膨胀能和压实功均与初始含水率近似成线性反比关系,与干密度成线性正比关系;干密度是影响压实功和膨胀能的主要因素。 相似文献
16.
A series of swelling tests is performed on a typical Nanyang expansive soil with medium swelling capacity compacted at various initial densities and water contents. The swelling tests are separately conducted using the conventional oedometer to confine the lateral swelling of the soil specimens, and using the GDS triaxial apparatus to allow the free volumetric swelling. The multiple nonlinear mathematical method is adopted to obtain the lateral swelling model (i.e. K-0 model), which fully considers the coupled effect of initial degree of compaction, moisture content and overburden pressure on the swelling strain. Also, an empirical model for the relationship between spherical stress and volumetric strain is proposed by triaxial swelling test. Based on the K-0 swelling model, a formula is proposed to quantitatively evaluate the swell potential, and also a theoretical calculation method is derived to determine the processing layer thickness of expansive soil slope. Based on the assumption that volumetric swelling strain only changes with spherical stress and is not affected by the deviatoric stress, the correlations between the K-0 model and triaxial model are analyzed, and a method to calculate the volumetric swelling strain by only employing the K-0 model is given. Experimental results show that the proposed K-0 model with multifactor coupling is reasonable to predict the swelling potential of compacted expansive soil. It is found that the key factor to link the K-0 model and triaxial swelling model is assuming an average static lateral pressure coefficient. The average static lateral pressure coefficient tends to decreases with increasing overburden pressure by inversion method. This tendency of average static lateral pressure coefficient is believed to rely on the fact that lateral swelling pressure decreases with the increase of overburden pressure. 相似文献