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1.
厦门地区花岗岩残积土的颗分试验表明其粒度呈“两头多,中间少”的特征,级配较独特。孔隙比等物性指标与压缩模量等设计中常用指标定量关联性不强,离散性大且没有明显规律。结合厦门地铁工程地质勘察资料,通过粒间状态参量、级配控制模式确定所研究土体的关键物理状态参量,分析该参量与岩土工程设计中常用指标之间的相关关系。结果表明,引入Thevanayagam提出的粒间孔隙比作为参变量,压缩模量随粒间孔隙比的增大而减小,建立了估计残积砾质黏性土、残积砂质黏性土压缩模量的经验公式。级配控制模式下的特征粒径比可以作为估计花岗岩残积土抗剪强度指标的关键参变量,黏聚力随特征粒径比的增大而增大,内摩擦角随特征粒径比的增大而减小,且线性相关性较好。文中建立的预测花岗岩残积土压缩模量、抗剪强度指标经验公式,可供厦门地区工程设计时参考。 相似文献
2.
Ron C. K. Wong 《国际地质力学数值与分析法杂志》2001,25(2):131-153
Oil sands are dense granular materials with interlocked structure and clay shales are heavily overconsolidated clays. They are classified as structured soil or weak rock, exhibiting high peak strength with severe softening and dilation, particularly at low confining stress. The triaxial compression test results indicate that both materials yield linear Mohr–Coulomb envelopes with an apparent cohesion for peak and residual strengths. However, the strength components mobilized from these two materials are very different. This paper investigates if these strength parameters are intrinsic properties or responses derived in triaxial compression conditions. Computer tomography scanning technique is used to aid in examining the micro‐structural features of the sheared specimens such as shear banding pattern, shear band thickness, spatial porosity distributions inside and outside shear bands. These micro‐structural features are used to explain the macro‐deformation response observed in the triaxial compression tests. Mobilization of strength components derived from interlocked structure, cementation, dilation, rolling and critical state are analysed for pre‐, post‐peak softening and residual stages. It is found that the empirical correlation such as Mohr–Coulomb failure criterion based on triaxial compression test results does not necessarily reflect the intrinsic properties of the test materials. Testing conditions are embedded in the empirical correlation. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
3.
Hanifi Missoum Mostefa Belkhatir Karim Bendani Mustapha Maliki 《Geotechnical and Geological Engineering》2013,31(1):279-296
In a number of recent case studies, the liquefaction of silty sands has been reported. To investigate the undrained shear and deformation behaviour of Chlef sand–silt mixtures, a series of monotonic and stress-controlled cyclic triaxial tests were conducted on sand encountered at the site. The aim of this laboratory investigation is to study the influence of silt contents, expressed by means of the equivalent void ratio on undrained residual shear strength of loose, medium dense and dense sand–silt mixtures under monotonic loading and liquefaction potential under cyclic loading. After an earthquake event, the prediction of the post-liquefaction strength is becoming a challenging task in order to ensure the stability of different types of earth structures. Thus, the choice of the appropriate undrained residual shear strength of silty sandy soils that are prone to liquefaction to be used in engineering practice design should be established. To achieve this, a series of undrained triaxial tests were conducted on reconstituted saturated silty sand samples with different fines contents ranging from 0 to 40 %. In all tests, the confining pressure was held constant at 100 kPa. From the experimental results obtained, it is clear that the global void ratio cannot be used as a state parameter and may not characterize the actual behaviour of the soil as well. The equivalent void ratio expressing the fine particles participation in soil strength is then introduced. A linear relationship between the undrained shear residual shear strength and the equivalent void ratio has been obtained for the studied range of the fines contents. Cyclic test results confirm that the increase in the equivalent void ratio and the fines content accelerates the liquefaction phenomenon for the studied stress ratio and the liquefaction resistance decreases with the increase in either the equivalent void ratio or the loading amplitude level. These cyclic tests results confirm the obtained monotonic tests results. 相似文献
4.
This paper presents the method proposed to calculate the bearing capacity of a square footing under oblique and eccentric oblique loading condition (satisfying both shear failure and settlement criteria) resting on fiber reinforced sand layer underlain by sand with geosynthetic/fabric sheet at the interface. Large direct shear tests were carried out to investigate the shear strength parameters of sand and randomly distributed fiber reinforced sand (RDFS) and soil-plastic fabric sheet bond. The ultimate bearing capacity of RDFS was determined using direct shear results. Non-dimensional charts proposed by Kumar (Behaviour of eccentrically–obliquely loaded footing on reinforced earth slab. Ph.D. thesis, University of Roorkee, Roorkee, India, 2002) were used to consider the contribution of plastic fabric sheet in increasing the bearing capacity. Also, for calculating the settlement, horizontal deformation and tilt at a given pressure the regression analysis of plate load test data have been carried out. The predicted values of ultimate bearing capacity, settlement, horizontal deformation and tilt are compared with the experimental values which are in good agreement with each other. There appeared to be an increase in the residual shear strength and angle of internal friction of RDFS. 相似文献
5.
6.
Ogbonnaya Igwe Hiroshi Fukuoka Kyoji Sassa 《Geotechnical and Geological Engineering》2012,30(5):1207-1229
The research investigated the influence of grain size distribution on the shear behavior of sand specimen in loose, medium and dense states. The investigation aimed at understanding the extent or degree at which static shear strength of soil is affected by its density. A standard indicator (coefficient of uniformity) was used in constituting four (4) different sand specimens—narrowly graded (NAG), intermediately graded (ING), well graded (WG) and gap graded (GAG). Different normal stress values were applied during the testing program. The specimens were sheared using a ring shear apparatus until a residual value of shear stress was obtained. Result obtained from the analysis shows two remarkable stress paths. Medium dense to dense specimens show dilative stress path while loose (less dense) specimens show contractive stress path. At loose state, WG specimens show higher peak and residual shear strengths than poorly graded ones. Of importance was the fact that all the NAG specimens underwent complete liquefaction but WG specimens did not undergo complete liquefaction. This was interpreted as strong inter-particle contacts/forces binding the grains which enhanced high shear resistance. The research also showed that increase in relative density leads to higher shear strength, particle size distribution notwithstanding. Also, result of the analysis showed that WG specimens in medium-and dense states have higher peak but lower residual strength than ING and NAG specimens-this phenomenon was termed reverse behavior by the author(s). GAG specimens when sheared have the lowest peak and residual strength at any given value of relative density. 相似文献
7.
钙质砂抗剪强度特性的环剪试验 总被引:2,自引:0,他引:2
珊瑚礁沉积的钙质砂与石英砂的物理力学性质有较大差别。对取自南海岛礁的钙质砂进行了单次往返环剪试验以分析钙质砂的抗剪强度特性,试验中考虑了相对密实度和竖向应力对结果的影响,并与相同级配和试验条件下的石英砂进行对比分析。结果表明:钙质砂正向剪切时应力-位移曲线为软化型,具有明显的残余强度特性,而反向剪切时则表现为硬化型,正向和反向剪切强度基本一致;石英砂正向剪切和反向剪切均表现为软化型。钙质砂正向剪切和反向剪切残余强度与峰值强度的比值在0.75~0.93之间;石英砂正向剪切和反向剪切残余强度与对应峰值强度的比值在0.89~0.96之间。相同级配和试验条件下,钙质砂残余强度均大于石英砂,且强度比值基本保持在1.05~1.3之间。在100、200 kPa竖向荷载作用下,钙质砂0.5~2.0 mm的颗粒发生了破碎,破碎率分别为4%和6%。 相似文献
8.
纤维加筋土中单根纤维的拉拔试验及临界加筋长度的确定 总被引:4,自引:1,他引:3
纤维加筋土物理力学性质主要受纤维与土界面之间作用力大小的控制,了解界面的微观力学行为对研究纤维加筋土的机制及工程应用具有重要意义。首先,利用自行设计的纤维拉拔试验装置,对不同含水率和不同干密度的土样进行了单根纤维的拉拔试验,测试并计算了单根纤维与土接触面之间的剪切强度和残余剪切强度,分析了含水率和干密度大小对它的影响。结果表明,设计的试验装置和试验方法能较好地进行单根纤维的拉拔试验,具有较高的准确性和精度。获得了纤维加筋土中界面剪切强度和残余强度与土样含水率和干密度之间的定量关系;分析拉力-位移曲线表明,加筋土中纤维的拉拔特性取决于筋土界面的力学行为,曲线的形状受含水率和干密度的影响不明显。最后,利用测得的筋土界面强度导出了纤维加筋的临界长度。 相似文献
9.
为分析灌浆加固裂隙岩体在压力水长期浸泡作用下力学性能的劣化效应,在前期碳纤维水泥基复合灌浆材料加固裂隙岩体研究基础上开展了考虑水压力影响的灌浆加固裂隙岩体长期浸泡试验和在不同浸泡周进行直剪试验。研究结果表明,(1) 压力水长期浸泡作用下灌浆加固裂隙岩样的剪应力?剪切位移曲线形态变化趋势明显,剪切刚度逐渐减小,达到峰值抗剪强度时的剪切位移逐渐增大;(2) 随着浸泡周期增加,灌浆加固裂隙岩体的抗剪强度呈先陡后缓的劣化趋势,6个浸泡周期(150 d)后不同法向应力下峰值抗剪强度的劣化幅度为32.6%~39.9%,对应内摩擦角和黏聚力分别降低了19.3%、39.4%,其中前4个浸泡周期(0~90 d)抗剪强度参数劣化幅度占总劣化幅度的90%左右;(3) 水压力作用下裂隙岩样发生溶解、溶蚀、润滑、软化等物理化学作用,浆体中的凝胶体被进入浆体内部的水分子软化,导致裂隙岩体和灌浆体本身的力学性质逐渐劣化,浆体与裂隙面之间的胶结作用、浆体与碳纤维之间粘结性能逐渐减弱,使得灌浆加固裂隙岩体抗剪性能逐渐劣化,剪切破坏面逐渐发展到浆体与裂隙面之间的胶结面。相关研究成果可为灌浆加固裂隙岩体的长期稳定性分析评价提供参考。 相似文献
10.
Mechanical Behavior of a Clay Soil Reinforced with Nylon Fibers 总被引:2,自引:1,他引:1
A. R. Estabragh A. T. Bordbar A. A. Javadi 《Geotechnical and Geological Engineering》2011,29(5):899-908
Soft soils are well known for their low strength and high compressibility. Several techniques, including reinforcement, are
commonly used to increase the strength and decrease the deformation of this kind of soil. This paper presents the results
of an investigation into the effects of fiber on the consolidation and shear strength behavior of a clay soil reinforced with
nylon fibers. A series of one dimensional consolidation and triaxial tests were conducted on samples of unreinforced and reinforced
clay with different percentages of randomly distributed nylon fibers. The results show that the preconsolidation pressure
decreases and the coefficient of swelling and compression generally increase with increasing the fiber content. Furthermore,
the addition of the fiber leads to a significant increase in shear strength and friction angle of the natural soil. 相似文献
11.
SHARAFUTDINOV Rafael 《岩土力学》2022,43(10):2873-2886
砂土的密度和应力状态对其刚度有很大的影响。计算岩土工程中许多硬化土体模型都是基于邓肯−张模型得出的,没有考虑到密度对砂土刚度的影响。而在极致密或松散的砂土的三轴压缩过程中,剪切应变的上升会引起密度的显著变化。为了评估粒径分布、密度及应力状态对砂土刚度的影响,使用统计和回归方法对来自莫斯科和明斯克的15个建筑工地的962个土壤样本的各向同性三轴试验数据进行分析。基于密度和应力状态参数的影响,提出了评估不同粒径砂土刚度的经验方程。对来自欧洲、印度和美国的冲积土和陆地土试验的比较分析表明,其砂土的刚度与莫斯科和明斯克的砂土在同一范围。所提出的方程可用于初步估计有限元法计算里的刚度参数,也可应用于岩土工程模型(允许考虑刚度的变化、水平和垂直分布)。此外,还提出了基于邓肯−张模型的半经验关系。当密度的变化影响土的刚度时,该半经验关系可为受到大变形和(或)复杂加载路径影响的松散和非常致密的砂土提供更为真实的结果。一般来说,岩土工程师可将获得的结果应用于更为复杂的土体模型设计中。 相似文献
12.
采用环剪仪对超固结黏土抗剪强度特性的研究 总被引:4,自引:1,他引:3
利用大型高速环剪仪,对不同超固结比、法向应力和剪切速率下的超固结饱和黏土的峰值强度和残余强度特性进行了研究,并对循环荷载作用前后残余强度的变化进行了初步探讨。试验结果表明,(1)超固结比对超固结黏土的峰值强度和残余强度有着明显的影响;(2)在剪切速率相同的条件下,土体达到残余强度时的位移取决于现存的应力状态,而与应力历史无关;(3)剪切速率越大,峰值强度随之增大,达到稳定残余强度时的剪切位移也随之增加,但剪切速率的变化对残余强度值几乎没有影响;(4)在循环荷载作用下残余强度不同程度的降低,最大降低幅度达12.2 %;当土体剪切面为不规则剪切带时,施加循环荷载后出现残余强度上升的现象。 相似文献
13.
Various mechanisms can affect the permeability of dense unconsolidated sands: Volumetric dilation can lead to permeability increase, whereas strain localization in shear bands may increase or decrease the permeability depending on the state of compaction and on the level of grains breakage inside the band. To investigate these various mechanisms, an experimental study has been performed to explore the effect of different factors such as grain size and grain shape, confining pressure, level of shear, stress path, and formation of one or several shear bands on the permeability of dense sands under triaxial loading. The experimental results show a reduction of permeability during the consolidation phase and during the volumetric contraction phase of shear loading, which can be related to the decrease of porosity. The experimental results also show that, depending on the confining pressure, the permeability remains stable or decreases during the volumetric dilation phase despite the increase of total porosity. This permeability reduction is attributed to the presence of fine particles, which result from grains attrition during pre-localization and grains breakage inside the shear band during the post-localization phase. 相似文献
14.
中主应力对饱和松砂不排水单调剪切特性的影响 总被引:7,自引:0,他引:7
利用土工静力-动力液压-三轴扭转多功能剪切仪,针对相对密度为30 %的福建标准砂,在不排水条件下控制主应力方向、中主应力系数、平均主应力保持不变,进行了单调剪切试验。以此着重探讨了中主应力系数对相变有效内摩擦角、峰值有效内摩擦角及有效应力路径的影响。研究表明,中主应力系数对在不排水单调剪切条件下饱和松砂的强度参数具有显著的影响,而对有效应力路径及应力-应变关系发展模式影响较小。基于广义双剪强度准则,从理论上探讨了土的强度参数对于中主应力的依赖性,并与试验结果进行了对比。 相似文献
15.
It is generally recognized that the low strength and high compressibility are the characteristics of soft soil. In addition to other techniques, reinforcement can also be used in increasing the strength and decreasing the deformation of this kind of soil. The results of an investigation into the effects of a natural fiber on the consolidation and shear strength behavior of Shanghai clayey soil reinforced with wheat straw fibers are presented in this paper. A series of one dimensional consolidation and triaxial tests were conducted on samples of unreinforced and reinforced Shanghai clayey soil with different percentages of randomly distributed wheat straw fibers. The results show that the preconsolidation pressure decreases and the coefficient of swelling and compression generally increase with increasing the fiber content until a optimum content value. Furthermore, the addition of wheat straw fiber leads to a significant increase in shear strength and friction angle of the natural soil and there is an optimum wheat fiber content that makes this increase maximal. 相似文献
16.
Effect of Random Inclusion of Polypropylene Fibers on Strength Characteristics of Cohesive Soil 总被引:2,自引:1,他引:1
Pradip Kumar Pradhan Rabindra Kumar Kar Ashutosh Naik 《Geotechnical and Geological Engineering》2012,30(1):15-25
This paper presents the effect of random inclusion of polypropylene fibers on strength characteristics of soil. Locally available
cohesive soil (CL) is used as medium and polypropylene fibers with three aspect ratios (l/d = 75, 100 and 125) are used as reinforcement. Soil is compacted with standard Proctor’s maximum density with low percentage
of reinforcement (0–1% by weight of oven-dried soil). Direct shear tests, unconfined compression tests and CBR tests were
conducted on un-reinforced as well as reinforced soil to investigate the strength characteristics of fiber-reinforced soil.
The test results reveal that the inclusion of randomly distributed polypropylene fibers in soil increases peak and residual
shear strength, unconfined compressive strength and CBR value of soil. It is noticed that the optimum fiber content for achieving
maximum strength is 0.4–0.8% of the weight of oven-dried soil for fiber aspect ratio of 100. 相似文献
17.
Yahia E.-A. Mohamedzein Mohammed Y. Al-Aghbari Ramzi A. Taha 《Geotechnical and Geological Engineering》2006,24(6):1767-1780
This paper presents experimental results on the use of incinerator ash in stabilizing desert sands for possible use in geotechnical
engineering applications. The incinerator ash was added in percentages of 2, 4, 8, 10 and 12%, by dry weight of sand. Laboratory
tests such as compaction, unconfined compression, shear box and hydraulic conductivity were performed to measure the engineering
characteristics of the stabilized material. The results showed substantial improvements in unconfined compressive strength
and shear strength parameters (c and φ). Thus, incinerator ash can be used to improve the shear strength characteristics of desert sands. The permeability of the
sand–incinerator ash mixture was relatively low. 相似文献
18.
为研究纤维加筋黄土CBR值影响因素及纤维增强土体机理,以短切玄武岩纤维为筋材,通过改变土体含水率、纤维长度、纤维含量、击实次数、浸水时间等条件进行加州承载比试验,探究初始含水率、纤维参数及试验方法对加筋土局部抗剪强度的影响规律。结果表明:纤维加筋土CBR值随含水率的增加呈现先增大后减小的趋势,存在“施工最优含水率”且相比击实试验最优含水率高1%~3%左右;纤维加筋土CBR值高于黄土CBR值,确定纤维长度20 mm,纤维含量0.4%为最优配比;击实次数从30击增加到98击,黄土CBR值提高273%,纤维加入后CBR值提高327%,加筋作用使土体通过提高击实功来提升强度的效果更加显著;浸水对试样CBR值影响较大,浸水时间对试样CBR值影响较小,且纤维的加入使试样对浸水时间的敏感度进一步降低,加筋土浸水2 d后强度降低54%,浸水4 d后强度降低58%。 相似文献
19.
为构建能够反映砂土高低压下不同力学特性的统一模型,分析了砂土在较大的压力范围内的力学试验结果并获取其强度、等向压缩以及临界状态特性参数。通过引入应力路径相关因子来修正塑性应变增量中与应力路径相关的部分,从而使得模型硬化参量能够反映密实砂土在常压下的剪胀特性。同时,基于砂土的临界状态特性提出能够与砂土内部状态相对应的潜在状态面概念,由屈服面与潜在状态面间的动态关系确定加载过程中的动态密实参数及潜在强度,进而使得硬化参量也能够反映密实砂土在常压下的软化特性及高压下的剪缩、硬化特性。分析模型屈服面及潜在状态面间的演化规律并对不同压力等级下的砂土受荷力学行为进行模拟预测,证实了该模型能够反映密实砂土常压下剪胀软化及高压下剪缩硬化的特性。 相似文献
20.
本研究采用聚丙烯纤维和聚氨酯型固化剂复合加固材料(简称复合加固剂)对砂土进行改良,对不同配比的复合加固剂改良砂土的强度,进行了无侧限抗压和直剪试验研究,并对其改良机理进行较为深入的分析。试验结果表明,复合加固剂改良砂土的无侧限抗压强度和剪切强度均得到了一定程度的提高。当复合加固剂中固化剂的浓度一定时,砂土的无侧限抗压强度和黏聚力均随着纤维含量的增加先增加后减少,分别在纤维含量0.3%和0.2%左右达到峰值;当复合加固剂中纤维含量一定时,砂土的无侧限抗压强度和黏聚力均随着固化剂浓度增加而增加,而内摩擦角变化不大。综合试验结果和施工可行性,建议复合固化剂在改良砂土应用中的最佳配比为聚氨酯固化剂浓度30%,聚丙烯纤维含量0.2%。复合加固剂是结合物理和化学加固方式,能够有效地提高砂土强度。本研究结果为复合加固材料的进一步研究和应用提供一定的参考依据。 相似文献