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首页 > 过刊浏览>2020年第42卷第2期 >37-44. DOI:10.11835/j.issn.2096-6717.2019.155
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纤维对纳米二氧化硅-石灰改良粉土力学性质的影响
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TU447

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国家自然科学基金(51208510);山东省研究生教育质量提升计划(SDYY17020);山东省研究生教育创新计划(SDYY15140)


Mechanical properties of nano-silica and lime stabilized silt reinforced by fiber
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    摘要:

    山东黄泛区粉土分布广泛,在铁路路基填料紧缺的情况下,常用改良粉土作为路基填料。选用纳米二氧化硅和石灰作为改良剂,对黄泛区粉土进行改良,并通过击实试验以及无侧限抗压强度试验对其强度进行测定,发现纳米二氧化硅-石灰改良粉土虽然强度有显著提升,但也呈现出脆性较大的不良特性。为改善纳米二氧化硅-石灰改良粉土的脆性,在改良粉土中加入聚丙烯纤维,并通过试验研究了纤维掺量和长度对纳米二氧化硅-石灰改良粉土强度和脆性的影响,确定纤维的最优掺量和最优长度。结果表明:纤维的加入能改善纳米二氧化硅-石灰改良粉土的脆性,提高其抗压及抗剪强度;当纤维掺量为0.4%、纤维长度为2 cm时,改良效果最好。

    Abstract:

    In Shandong province, silt is widely distributed in the Yellow River flooding area.In the case of shortage of railway roadbed filling material, reinforced silt is commonly used as an alternative.In this study, the silt in the Yellow River floodplain area was reinforced by using nano-silica and lime as modifiers.The strength of the silt was measured by compaction test and unconfined compressive strength tests.It was found that although the strength of the silt was significantly improved, the material also showed some characteristics of brittleness.In order to overcome this disadvantage, polypropylene fibers were added to silt and then, the influences of fiber content and length on the strength and brittleness of the silt were studied through a series of experiments.The optimum fiber content and the optimum fiber content were determined.The results show that the brittleness and compressive and shear strength of the silt can be improved by adding fibers; and when the content of fibers is 0.4% and the length of fibers is 2 cm, the improvement effect is the best.

    参考文献
    [1] GHASABKOLAEI N, JANALIZADEH CHOOBBASTI A, ROSHAN N, et al.Geotechnical properties of the soils modified with nanomaterials:A comprehensive review[J].Archives of Civil and Mechanical Engineering, 2017, 17(3):639-650.
    [2] JALAL M, POULADKHAN A, HARANDI O F, et al.Comparative study on effects of Class F fly ash, nano silica and silica fume on properties of high performance self compacting concrete[J].Construction and Building Materials, 2015, 94:90-104.
    [3] CHITHRA S, SENTHIL KUMAR S R R, CHINNARAJU K.The effect of colloidal nano-silica on workability, mechanical and durability properties of high performance concrete with copper slag as partial fine aggregate[J].Construction and Building Materials, 2016, 113:794-804.
    [4] VARGAS P, MARÍN N A, TOBÓN J I.Performance and microstructural analysis of lightweight concrete blended with nanosilica under sulfate attack[J].Advances in Civil Engineering, 2018:1-11.
    [5] GALLAGHER P M, CONLEE C T, ROLLINS K M.Full-scale field testing of colloidal silica grouting for mitigation of liquefaction risk[J].Journal of Geotechnical and Geoenvironmental Engineering, 2007, 133(2):186-196.
    [6] CHOOBBASTI A J, VAFAEI A, KUTANAEI S S.Mechanical properties of sandy soil improved with cement and nanosilica[J].Open Engineering, 2015, 5(1):111-116.
    [7] CHOOBBASTI A J, KUTANAEI S S.Microstructure characteristics of cement-stabilized sandy soil using nanosilica[J].Journal of Rock Mechanics and Geotechnical Engineering, 2017, 9(5):981-988.
    [8] BAHMANI S H, FARZADNIA N, ASADI A, et al.The effect of size and replacement content of nanosilica on strength development of cement treated residual soil[J].Construction and Building Materials, 2016, 118:294-306.
    [9] ALI PASHABAVANDPOURI M, JAHANGIRIS.Effect of nano silica on swelling, compaction and strength properties of clayey soil stabilized with lime[J].Journal of Applied Environmental and Biological Sciences, 2015, 5(7S):538-548.
    [10] GELSEFIDI S A S, MAMAGHANIAN J.Stabilization of a weak low plasticity clay soil using nanomaterial[C]//5th International Young Geotechnical Engineers' Conference, 2013:134-137.
    [11] GHASABKOLAEI N, JANALIZADEH A, JAHANSHAHI M, et al.Physical and geotechnical properties of cement-treated clayey soil using silica nanoparticles:An experimental study[J].The European Physical Journal Plus, 2016, 131(5):134.
    [12] ALI ZOMORODIAN S M, SHABNAM M, ARMINA S, et al.Strength enhancement of clean and kerosene-contaminated sandy lean clay using nanoclay and nanosilica as additives[J].Applied Clay Science, 2017, 140:140-147.
    [13] 璩继立, 胡晨凯, 赵超男.玄武岩纤维和纳米二氧化硅加筋上海黏土的抗剪强度试验研究[J].水资源与水工程学报, 2017, 28(3):186-192. QU J L, HU C K, ZHAO C M.Experimental study on shear strength of Shanghai clay reinforced with basalt fibers and nano-silica[J].Journal of Water Resources and Water Engineering, 2017, 28(3):186-192.(in Chinese)
    [14] CHANGIZI F, HADDAD A.Strength properties of soft clay treated with mixture of nano-SiO2 and recycled polyester fiber[J].Journal of Rock Mechanics and Geotechnical Engineering, 2015, 7(4):367-378.
    [15] TA'NEGONBADI B, NOORZAD R.Stabilization of clayey soil using lignosulfonate[J].Transportation Geotechnics, 2017, 12:45-55.
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李国勋,张艳美,马丁,毕舰心.纤维对纳米二氧化硅-石灰改良粉土力学性质的影响[J].土木与环境工程学报(中英文),2020,42(2):37-44. Li Guoxun, Zhang Yanmei, Ma Ding, Bi Jianxin. Mechanical properties of nano-silica and lime stabilized silt reinforced by fiber[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2020,42(2):37-44.10.11835/j. issn.2096-6717.2019.155

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  • 收稿日期:2019-06-11
  • 在线发布日期: 2020-04-28
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