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1.
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
2.
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
3.
Wei Shao Bora Cetin Yadong Li Jingpei Li Lin Li 《Geotechnical and Geological Engineering》2014,32(4):901-910
The addition of cementitious admixtures and/or inclusion of fibers are frequently used in practice to stabilize soils and to improve their mechanical properties. In this study, ring shear tests were conducted to investigate mechanical properties such as shear strength, angle of friction and cohesion values of randomly distributed discrete fiber-reinforced sand mixtures. The length and aspect ratio of the fibers used in the current study were 12 mm and 120, respectively. Specimens were prepared at four different fiber ratios (0.1, 0.3, 0.6, and 0.9 % by weight of sand). A series of ring shear tests were carried out on sand alone and fiber-reinforced sand mixtures at different normal stresses. The test results indicated that the addition of fiber had a significant effect on the shear strength of the sand. Shear stress of the unreinforced sand increases 1.29–2.32, 1.16–1.39, and 1.07–1.5 times at a normal stress of 50, 150, and 250 kPa, respectively with fiber inclusion. Fiber content had positive effects on improving the shear strength parameters (angle of internal friction and cohesion) of the mixtures. The cohesion and angle of internal friction of fiber-reinforced sand prepared at different ratios of fiber increased by 5.3–27.4 kPa and 2.0°–7.3° respectively. The inclusion of fibers improves the ductility of the soil by preventing the loss of post-peak strength. 相似文献
4.
Inclusion of synthetic fibers is becoming a routine task in soil reinforcement. The ability of synthetic fibers in controlling the shrinkage cracks in concrete is the main drive to consider its benefits in clay and other soil materials. The polypropylene fibers are nonbiodegradable and can perform well even in aggressive chemical exposure conditions. The direct shear testing is a popular geotechnical approach to assess the shearing strength for a range of soils. This study is aimed at investigating the effect of fiber inclusion on the direct shear response of semi-arid clay soils. This research is conducted using two different types of polypropylene fibers, viz., Fibercast and Fibermesh, having different surface properties on the shear strength envelope and parameters (angle of internal friction and cohesion). The aspect lengths were varied as 6 and 12 mm, and the dosages were varied as 0.2, 0.4, and 0.6 % by weight of the soil. The results were viewed in relation to the fiber type, size, and dose. The soil response and shear resistance measured in consolidated undrained direct shear test is presented for the targeted doses, and the results revealed useful insight compared to unreinforced. The Fibermesh material proved to be the more appropriate fiber additive to typical semi-arid clay soils. The data provides helpful guide for the design geotechnical engineers. 相似文献
5.
滨海盐渍土具有盐胀、溶陷和吸湿软化等不良工程地质问题,未经固化处理不能满足工程建设的强度和变形要求。借鉴合成纤维加筋土和草根土的研究成果,初步确定包括加筋长度、质量加筋率、加筋形状和石灰掺加量等因素的麦秸秆加筋盐渍土的加筋条件。通过抗压强度试验和Taguchi正交试验设计优化方法,确定最优加筋条件为:加筋长度为10 mm、加筋率为0.25 %、形状为1/4圆弧状和石灰掺加量为8 %。以麦秸秆作加筋与石灰共同加筋固化滨海盐渍土,其抗压强度试验结果表明,石灰+麦秸秆加筋盐渍土的抗压强度、抗变形能力和水稳性均优于石灰土和盐渍土。初步的研究成果对今后系统研究麦秸秆加筋滨海盐渍土的抗压强度、抗剪强度和变形特性等具有指导意义。 相似文献
6.
7.
麦秸秆布筋区域与截面形状下的加筋土抗剪强度 总被引:4,自引:0,他引:4
以防腐后的麦秸秆和石灰加筋固化滨海盐渍土,解决由盐渍土的盐胀和溶陷引起的低强度和大变形问题。将布筋区域设计为上半部、中部、下半部、上部1/3与下部1/3处分别布筋,共5种布筋区域;将麦秸秆切割成圆管状、半圆管状、1/4圆管状、圆管碾压后的随机形状,共4种加筋横截面形状。加筋盐渍土和加筋石灰盐渍土的三轴UU抗剪强度表明,适宜的布筋区域均为下半部,适宜的加筋横截面形状均为1/4圆管状。麦秸秆的布筋区域和加筋横截面形状对加筋盐渍土和加筋石灰土的抗剪强度均具有明显影响。加筋可有效地提高黏聚力,但对内摩擦角影响较小。麦秸秆适宜作加筋材料,5种布筋区域和4种麦秸秆截面形状的加筋条件下,均可提高滨海盐渍土的抗剪强度和抗变形性能。 相似文献
8.
A. R. Estabragh A. T. Bordbar A. A. Javadi 《Geotechnical and Geological Engineering》2013,31(2):501-510
This paper presents the results of an experimental investigation into the effects of discrete palm fibers on the consolidation and shear behavior of a randomly reinforced clay soil. Three groups of reinforced soil samples were prepared at three different fiber contents (10, 20 and 30 %). Consolidation and triaxial tests were carried out on the samples. The results indicate that the inclusion of the fiber reinforcement within the soil causes decrease in preconsolidation pressure and increase in compressibility and swelling indices. In addition, the strength and friction angle increase considerably in terms of total and effective stresses. The results also show that the increase in the slope of the critical state line in $ q :p^{\prime } $ space is a function of fiber content. 相似文献
9.
Armand Sylvain Ludovic Wouatong Wamba Danny Love Djukem François Ngapgue Valentine Katte Véronique Kamgang Kabeyene Beyala 《Geotechnical and Geological Engineering》2017,35(6):2637-2646
Several soil improvement methods are used to enhance the engineering properties of soil, among which, reinforcement by fibers is considered as an effective ground improvement method because of its cost effectiveness, and easy adaptability. The present investigation chooses synthetic wick and vinifera raphia fibers as reinforcement. The synthetic wick fiber was randomly included into the soil at four different percentages i.e. 0, 2, 4, 6% by volume of raw soil. Vinifera raphia fiber was used at one percentage (4%) as control. The main objective of this research is to focus on the strength behavior of clayey soil reinforced with randomly included synthetic wick fiber. The physical and mineralogical characterization was carried out on ten soil samples. The compression, flexion, abrasion, water absorption and capillarity tests were performed on synthetic wick reinforced specimens with various fiber contents. The results of these tests have clearly shown an improvement in the compression strength values from 1.65 to 2.84 MPa for the wicks fibers, and the flexural strength values which varied between 1.08 and 1.96 MPa. Hence, the waste of synthetic wick fibers is therefore an efficient reinforcement for compressed earth blocks, which are very significant for construction of durable and economic infrastructures. 相似文献
10.
The use of natural fibers such as coir for soil improvement is highly attractive in countries where such materials are locally and economically obtainable, in view of the preservation of natural environment and cost effectiveness. This paper discusses shear strength of clay reinforced with randomly distributed coir fibers based on a series of consolidated undrained triaxial compression tests. Test results show that major principal stress at failure for clay-coir fiber matrix increases with increase in fiber content (W f ) and fiber aspect ratio (A r ). For all the combinations of fiber contents and aspect ratios, failure principal stress envelope exhibits a curvilinear variation with a transition at a confining stress, known as critical confining stress. Separate regression analyses have been performed for observations below and above critical confining stress to develop mathematical models, which consider fiber content, aspect ratio, confining stress and plain soil characteristics as the input parameter, to predict major principal stress at failure for the clay-fiber composite. In general, the study identifies that the inclusion of discrete coir fibers in random fashion significantly improves the shear strength of clay and hence could be effectively used for the cases where in-place mixing of soil with fibers is possible (e.g., pavement sub-grade, landfill liner, small embankment). The developed regression models may be used in the design phase for the rough estimation of shear strength of the composite. 相似文献
11.
麦秸秆的力学性能及加筋滨海盐渍土的抗压强度研究 总被引:4,自引:0,他引:4
为开展天然草本纤维材料防腐前后的力学性能及加筋滨海盐渍土的抗压强度增长规律研究,本文探讨了麦秸秆的微结构特征及防腐方法、测试并对比了防腐前后的麦秸秆的质量增加率、吸水率、极限拉力和极限延伸率,证实用SH胶浸泡麦秸秆不仅能起到防腐作用,还可提高麦秸秆的力学性能。完成了不同加筋长度、不同加筋率及浸胶后呈不同状态麦秸秆的加筋滨海盐渍土无侧限抗压强度试验,结果证实:掺加长10mm麦秸秆优于掺加长20 mm麦秸秆;适宜加筋率为0.3%~0.4%;掺加浸泡SH胶后呈潮湿状态的麦秸秆优于掺加浸泡SH胶后呈干燥状态的;麦秸秆加筋盐渍土的抗压强度高于素盐渍土。初步的研究结果表明,麦秸秆适宜作加筋材料使用。 相似文献
12.
Laboratory Study on the Relative Performance of Silty-Sand Soils Reinforced with Linen Fiber 总被引:2,自引:1,他引:1
Randomly distributed fibers have been successfully used for the reinforcement of soils to improve their properties. However,
the technique requires extensive testing on samples before it can be implemented. Therefore, the purpose of this paper is
to identify and quantify the influence of variables of linen-fiber (content and aspect ratio) on the performance of linen-fiber
reinforced silty-sand specimens. The linen fibers have filament textures with special properties such as: low costs, plenitude
in the region, lightweight, tension capacity and relative strength against deterioration. Linen fibers with diverse fiber
contents (0.25, 0.50, 0.75 and 1.0% of dry weight) and ratio aspect (50, 100 and 150) were used. The composite soils were
laboratory tested for compaction, unconfined compression strength (UCS), California Bearing Ratio (CBR) and direct shear tests.
The test results indicated that adding linen fiber in silty-sand soil resulted in increasing in unconfined compression strength,
California Bearing Ratio values, peak friction angle and cohesion values. Furthermore, adding linen fibers have the dual benefit
of increasing the stiffness (modulus of elasticity) and the ductility of the reinforced soil. However, this study suggests
that the optimum fiber content for silty-sand samples reinforced with linen fibers is approximately 0.75% of the dry weight
of the soil and a maximum performance was achieved at aspect ratio of 100 to avoid fiber balling. The laboratory results were
used for the development of linear regression equation that best relates the UCS and CBR of a reinforced soil to the aforementioned
parameters. 相似文献
13.
棕榈加筋上海黏土强度特性试验研究 总被引:2,自引:0,他引:2
采用棕榈作为加筋材料对上海黏土进行直剪慢剪试验,通过改变筋材的加筋率及尺寸研究棕榈对上海黏土强度特性的影响。试验表明,(1)与素土相比,加筋土的抗剪强度和黏聚力明显提高,但内摩擦角的变化较小;(2)加筋土的最优加筋率为0.6%;(3)棕榈尺寸为6 mm×12 mm的抗剪强度优于6 mm×6 mm和6 mm×18 mm的抗剪强度;(4)垂直压力为100 kPa时,应力-应变曲线呈应变软化型,随着垂直压力的增加,应力-应变曲线呈应变硬化型;(5)与素土相比,加筋土残余强度降低幅度减小,土体的抗变形能力提高,同时分析了加筋的抗剪强度作用机制,阐述了棕榈加筋材料在黏土中的作用,棕榈可作为加固上海黏土的一种有效方法。 相似文献
14.
以强度增长率评价麦秸秆加筋盐渍土的加筋效果 总被引:1,自引:0,他引:1
采用麦秸秆与石灰共同加筋固化滨海盐渍土,可解决由于盐胀、溶陷和吸湿软化引起的土体强度下降问题。首先,制备盐渍土、石灰土、麦秸秆加筋盐渍土和麦秸秆加筋石灰土试样(整体均匀加筋、上部均匀加筋和下部均匀加筋);进而,进行? 50 mm试样、? 152 mm重型击实试样和? 102 mm轻型击实试样的无侧限抗压强度试验,以及? 61.8 mm试样三轴压缩试验;最后,分析抗压强度增长率、主应力差比值和黏聚力增长率的变化规律,以评价麦秸秆的加筋效果。结果表明:① 麦秸秆加筋增强了土的抗压强度和抗变形能力。② 麦秸秆加筋提高了土的黏聚力,在试样下部加筋,加筋效果更好。③ 加筋石灰土的强度由麦秸秆和石灰共同承担,加筋石灰土的浸水稳定性来源于石灰的固化作用。④ 低围压时,加筋对土的侧向变形约束较强;高围压时,加筋和围压共同限制土的侧向变形。采用麦秸秆加筋是滨海盐渍土的一种有效处理方法 相似文献
15.
Costas A. Anagnostopoulos Dimitrios Tzetzis Kiriakos Berketis 《Geomechanics and Geoengineering》2014,9(3):241-251
Soil reinforcement through the inclusion of oriented or randomly distributed discrete elements such as fibres has recently attracted increasing attention in geotechnical engineering. Therefore, the purpose of this paper is to investigate the influence of certain parameters (the strength properties of the fibre, the relative size of the fibres and grains, and the rate of shear) on the shear strength of polypropylene fibre reinforced cohesive soils. A series of consolidated drained or undrained direct shear tests were conducted on unreinforced and reinforced sandy silt and silty clay specimens. Two types of polypropylene fibres with different mechanical indices were used. The fibre content was varied between 0.3% and 1.1% by weight of dry soil. The test results revealed that the inclusion of fibres in soil significantly increases the shear strength. The attainment of the high shear strength is attributed to the micromechanisms involved in the fibre/soil interactions as studied through scanning electron micrographs. The results also showed that the reinforcement effect was more pronounced under undrained shearing conditions. An important outcome from the current work is that, from the data obtained, the strength of the reinforced soil composites is not practically affected by the fibre mechanical indices. 相似文献
16.
Aslı Boz Alper Sezer Tuba Özdemir Gül Ece Hızal Özlem Azdeniz Dolmacı 《Arabian Journal of Geosciences》2018,11(6):122
In this paper, a comparative experimental study was carried out to evaluate the effect of inclusion of different fiber types on strength of lime-stabilized clay. In this scope, a series of unconfined compressive strength tests were carried out on specimens including basalt and polypropylene fiber compacted under Standard Proctor effort (i.e., 35% by weight of soil). The effects of curing period (1, 7, 28, and 90 days), fiber type (basalt and polypropylene), fiber content (0, 0.25, 0.5, 0.75, 1%), fiber length (6, 12, and 19 mm), and lime content (0 and 9%) on strength properties were investigated. The results revealed that both basalt and polypropylene fibers increased the strength without inclusion of lime. For specimens including lime, strength of polypropylene fiber-reinforced specimens was remarkably higher than that reinforced with basalt fiber for lime-stabilized clay. However, greatest strength improvement was obtained by use of 0.75% basalt fiber of 19 mm length with 9% lime content after 90-day curing. Additionally, results of strength tests on specimens including 3 and 6% lime and 12-mm basalt fiber after 1, 7, 28, and 90-day curing were presented. It is evident that the use of 6-mm basalt fiber and 12-mm polypropylene fiber were the best options; however, efficiency of fiber inclusion is subject to change by varying lime contents. It was also observed that the secant modulus was increased by use of lime; however, strength of the correlations among secant modulus and unconfined compressive strength values was decreased by increasing amount of lime for specimens including both basalt and polypropylene fibers. 相似文献
17.
纤维加筋土工程性质研究进展 总被引:7,自引:0,他引:7
纤维加筋是一种新型的土体改良技术,是指将分散的纤维丝均匀掺入土体中,达到提高土体的工程力学性能的目的。本文根据国内外近20a来在该领域取得的成果,着重对纤维加筋材料、纤维加筋土的工程性质及加筋机理等方面的研究进展进行了介绍。在纤维加筋材料方面,主要有人工合成纤维和自然纤维两种; 在纤维加筋土工程性质方面,纤维加筋能有效提高土体的抗剪、抗压、抗拉强度和承载力,增加土体的破坏韧性和渗透性,降低膨胀土的胀缩性和裂隙发育程度; 在纤维加筋机理方面,目前主要认为纤维的加筋效果主要取决于纤维-土界面的力学作用,即界面黏聚力和摩擦力。最后,针对目前纤维加筋土的研究不足,提出了今后该领域的研究重点和方向,主要包括: 开发简单可行的纤维土施工器具和工艺、开发更专业的纤维产品和降低纤维成本、开展大尺度模型试验和现场试验、纤维-土界面作用机理研究、纤维加筋土的破坏和失效机理研究、纤维加筋土的力学模型及计算理论研究、纤维加筋土的动力学特性研究等。 相似文献
18.
筋-土界面强度参数是加筋结构设计和稳定分析的关键技术指标。拉拔试验能较好模拟现场加筋行为而得到广泛的应用。基于拉拔和直剪试验研究了拉拔(剪切)速率对筋-土界面特性和吹填砂强度特性的影响规律及机制,同时探讨了不同填料界面、筋材类型的加筋效果。结果表明:随着拉拔(剪切)速率的增大,吹填砂-筋材-吹填砂界面的抗剪强度下降明显,而软土-筋材-吹填砂界面以及砂本身强度则变化不大。从强度指标来看,拉拔速率增大,筋-砂界面强度的降低主要表现为似黏聚力的降低,筋-软土界面抗剪强度的增加表现为内摩擦角增大,剪切速率对吹填砂则基本无影响。筋-土界面特性受拉拔速率和正应力的共同影响,与筋材类型和填料特性有关。筋-土界面内摩擦角小于填料摩擦角,但在一定正应力下低速剪切时(如<0.53 mm/min)可获得高于填料的抗剪强度。宜根据似黏聚力大小合理选择摩擦参数进行加筋结构的设计与评价。 相似文献
19.
聚丙烯纤维和水泥对粘性土强度的影响及机理研究 总被引:5,自引:0,他引:5
选取聚丙烯纤维和水泥作为加固材料,在室内试验的基础上,研究了单独的纤维和水泥对粘性土强度的影响及其的综合作用,分析了它们的作用机理。试验中,3种不同百分比(0.05%,0.15%和0.25%素土重)的纤维和两种不同百分比的(5%和8%素土重)水泥分别掺入到粘土试样中,配制了12组试样,进行了无侧限抗压试验。试验结果表明,纤维和水泥均能够提高土体的强度,纤维的加入改善了水泥土样的脆性破坏模式;纤维水泥土样的强度远远高于相同掺量下的纯纤维土和纯水泥的强度,甚至高于它们的强度之和。运用扫描电镜(SEM)从微观层次上分析了纤维和水泥加固粘性土的力学机理,发现纤维表面与土介质之间的粘结力和摩擦力对加固效果有直接影响。 相似文献
20.
粉土因具有黏聚力低、水稳性差的特点,在工程中的使用受限;玉米秸秆具有较高的抗拉强度,是一种性能良好、环保的天然纤维,将经过防腐处理后的玉米秸秆作为加筋材料纤维掺加到粉土中,是否会起到良好的加固效果,本文将就此展开研究。首先对玉米秸秆皮进行抗拉强度测试,选取抗拉强度较高的无茎节点秸秆皮作为试样;将该试样用卡松、双乙酸钠、聚乙烯醇3种防腐溶液进行浸泡,并对浸泡处理后的试样进行抗拉强度测试,结果表明浸泡过3种防腐剂的秸秆在浸泡水后抗拉强度均比天然秸秆有不同程度的提升,其中聚乙烯醇的防腐效果最好,浸泡12周后抗拉强度比天然秸秆高出约60%;对用聚乙烯醇浸泡后的试样进行显微镜拍照和称重测试,显示秸秆在浸泡3天后对聚乙烯醇的吸收达到饱和。将用聚乙烯醇防腐处理后的玉米秸秆纤维掺加到粉土中,制样进行三轴试验,发现玉米秸秆加筋对粉土强度的提高主要体现在黏聚力上,其增幅为素土试样的100%,改善了土体的水稳定性;其应力-应变曲线更倾向于应变-硬化,有别于素土的应变软化,破坏形态较为完整,有别于素土的斜截面破坏,这说明粉土加入玉米秸秆纤维后抵抗外界荷载的能力增强。 相似文献