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Volume 36 Issue 7
Dec.  2014
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Article Navigation >  INDUSTRIAL CONSTRUCTION  > 2006  >  36(7): 7-12,18
Huang Xin, Ning Jian-guo, Xu Sheng, Lan Ming-zhang. OPTIMIZATION DESIGN OF SOFT SOIL STABILIZER[J]. INDUSTRIAL CONSTRUCTION, 2006, 36(7): 7-12,18. doi: 10.13204/j.gyjz200607002
Citation: Huang Xin, Ning Jian-guo, Xu Sheng, Lan Ming-zhang. OPTIMIZATION DESIGN OF SOFT SOIL STABILIZER[J]. INDUSTRIAL CONSTRUCTION, 2006, 36(7): 7-12,18. doi: 10.13204/j.gyjz200607002
shu

OPTIMIZATION DESIGN OF SOFT SOIL STABILIZER

doi: 10.13204/j.gyjz200607002
  • 1.

    1. Department of Civil Engineering,Beihang University Beijing 100083;

  • 2.

    2. School of materials,Beijing University of Technology Beijing 100022

  • Received Date: 2006-02-25
  • Publish Date: 2006-07-20
    Abstract
  • A stabilized-soil structure formation model is proposed. Based on the model, hydrates varieties required to form optimum structure of the stabilized soil are suggested. Also the influence of some chemical factors in soils on hydrates growing in the stabilized soil is discussed and the resolvent is given. Based on the above research, an optimization design method is proposed, with which stabilizer can be designed according to characteristics of soil samples
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    • References(19)
  • 《地基处理手册》编写委员会.地基处理手册.第二版.北京:中国建筑工业出版社,2000
    [2] Reuben H Karol.Chemical Grouting and Soil Stabilization.Third Edition.New Jersey,USA:Rutgers University,Marcel Dekker,Inc.,2003:120-129
    [3] Moseley M P,Kirsch K.Ground Improvement.2nd Edition.New York,USA:Taylor Francis Group,2004:119-175
    [4] 汤怡新,刘汉龙,朱伟,等.水泥固化土工程特性试验研究.岩土工程学报,2000,22(5):549-554
    [5] 资建民,聂桂平.增强型湿塑性水泥土加固软土地基研究.岩石力学与工程学报,2003,22(5):858-862
    [6] 简文彬,黄春香,吴维青,等.水泥土的疲劳试验研究.岩石力学与工程学报,2004,23(11):1949-195318
    [7] 周红波,李恒,王天龙,等.高钙粉煤灰加固促淤地基机理和性状试验研究.岩土力学,2004,25(5):783-788
    [8] 黄新,周国钧.水泥加固土硬化机理初探.岩土工程学报,1994,16(1):62-68
    [9] Saitoh S,Suzuki Y,Nishioka S K,et al.Required Strength of Cement Improved Ground//Yonekura R et al.eds.Grouting and Deep Mixing Proc.Conference.Tokyo,1996:557-562
    [10] 周明凯.高性能水泥基土壤固化材料的设计、制备与机理研究:[博士学位论文].武汉:武汉工业大学,1999
    [11] Kamon M,Nontananandh S,Katsumi.Effective Utilization of Stainless Steel Slag for Soil Stabilization//Proc.24th.Japan Nat.Cong.On Soil Mech.and Foundation Engineering.Japan,1989:1947-1948
    [12] Srivastava R K.Swelling and Consolidation Behaviour of Industrial Waste Stabilized Expansive Soil//Eleventh Asian Regional Coherence on Soil Mechanics and Geotechnical Engineering.Hong Kong,1999:473-476
    [13] 任光月,迟宗立.利用高钙粉煤灰做软黏土固化剂.沈阳建筑工程学院学报,1995,11(4):354-357
    [14] 刘顺妮,林宗寿,陈云波.高含水量黏土固化剂的研究.岩土工程学报,1998,20(4):72-75
    [15] 黄新,宁建国,许晟,等.固化土结构的形成模型.工业建筑,2006,36(7):1-6
    [16] Diamond S,Kinter E B.Mechanisms of Soil-Lime Stabilization.Highw.Res.Rec.1966,92:83-102
    [17] Mohamed A M O.The Role of Clay Minerals in Marly Soils on Its Stability.Engineering Gelolgy.2000(57):193-203
    [18] 黄新,宁建国,许晟,等.根据土样性质指标进行软土固化剂设计的方法.工业建筑,2006,36(7):13-18
    [19] 黄新,宁建国,许晟,等.固化土孔隙液Ca(OH)2饱和度对强度的影响.工业建筑,2006,36(7):19-24
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