• Title/Summary/Keyword: 점토-시멘트 혼합토

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Prediction of Physical Characteristics of Cement-Admixed Clay Ground (점토-시멘트 혼합 지반의 물리적 특성 예측)

  • Park, Minchul;Jeon, Jesung;Jeong, Sangguk;Lee, Song
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.34 no.2
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    • pp.529-536
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    • 2014
  • Physical characteristics of cement-admixed clay such as water content, specific gravity, unit weight and void ratio are main factors for strength, compressibility and prediction of consolidation behavior. In the past, the physical characteristics of admixed soils could be understanded through complex laboratory tests and field survey after construction. In this study, the tests were performed with conditions such as clay water contents 0%-170%, cement contents 5%-25% and curing period 3-90days after that analyzed for changes which are water content, specific gravity unit weight and void ratio of admixed soils. A prediction of properties through mechanical relationships with clay in situ water content, cement content and curing period could be proposed using the test results. The prediction equation of void ratio of admixed soils was derived using void ratio equation in geotechnical engineering and compared with test results of bangkok clay and then this study could be verified.

Strength and Deformation Characteristics, and Numerial Analysis for Cement Admixed Clay and Composite Ground (시멘트 혼합토 및 복합지반의 강도, 변형 특성 및 수치해석)

  • Jeon, Jesung
    • Journal of the Korean GEO-environmental Society
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    • v.15 no.8
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    • pp.51-58
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    • 2014
  • In this research, the composite grounds including original clay and soil-cement were constructed for conducting uniaxial compression test. Strength and deformation properties were analysed using results of laboratory tests with variations of water content of clay, replacement ratio and cement content. Numerical simulation using 3D distinct element method was conducted for soil cement. For strength of composite ground that contains more than cement contents of 15 %, it is more effective to increase cement content than increase of replacement ratio. Strength and elastic modulus of composite ground could be predicted by regression equations using uniaxial compression strength of clay, cement content of soil cement and replacement ratio. For strength and elastic modulus of soil cement, which is most important things for predicting final strength and elastic modulus of composite ground, numerical simulation using the distinct element method adapted bonding model could be used to verify laboratory test, and predict strength and elastic modulus.

Strength Prediction of Mixing Condition and Curing Time Using Cement-Admixed Marine Clay (해성점토를 이용한 시멘트 혼합토의 배합조건 및 재령일별 강도 예측)

  • Jeon, Je-Sung;Park, Min-Chul;Lee, Song
    • Journal of the Korean Geotechnical Society
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    • v.29 no.12
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    • pp.45-56
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    • 2013
  • Abrams equation could be effectively applied to predict strength of cement-admixed clay and clay-water content to cement content ratio is a fundamental parameter for governing strength. This paper analyses unconfined compression strength varying with $w_c/C$ and curing time using laboratory test results. An attempt is made to identify strength of composite soil of cement and clay according to variation of Abrams coefficients and curing time. The value B, which was considered to be constant value in past researches, needs to be considered as parameter variable with curing time. From Abrams equation a correlation was formed for unconfined compression strength with mixing conditions by $w_c/C$ and curing time as dependent variable. Regression results in this paper could be used to predict strength of cement-admixed clay at various mixing conditions.

Characteristics of Unconfined Compressive Strength of Dredged Clay Mixed with Friendly Soil Hardening Agent (준설토와 친토양 경화재 혼합지반의 일축강도특성)

  • Oh, Sewook;Yeon, Yonghum;Kwon, Youngcheul
    • Journal of the Korean GEO-environmental Society
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    • v.17 no.10
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    • pp.73-81
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    • 2016
  • In the construction on low strength and high compressible soft ground, the many problems have been occurred in recent construction project. therefore, the soil improvement have been developed to obtain high strength in relatively short period of curing time. Based on the laboratory tests using undisturbed marine clay, the effect of improvement on soft ground was estimated. Deep mixing method by cement have been virtually used for decades to improve the mechanical properties of soft ground. However, previous researches set the focus on the short term strength the about 10% of cement treated clay. In this paper, cement and Natural Soil Stabilizer (NSS) were used as the stabilizing agent to obtain trafficability and mechanical strength of the soft clay. Based on the several laboratory tests, optimum condition was proposed to ensure the mechanical strength and compressibility as the foundation soil using cement and NSS mixed soil. Finally, research data was proposed about the applicability of NSS as the stabilizing agent to soft clay to increase the mechanical strength of soil.

Determination of Mix Design and Target Strength for Lightweight Soils using Recycled material (폐기물을 첨가한 경량혼합토의 배합설계와 목표강도 결정)

  • Yoon, Gil-Lim;Bae, Yoon-Shin
    • Proceedings of the Korean Geotechical Society Conference
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    • 2010.03a
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    • pp.468-474
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    • 2010
  • 최근 국내에서 연약지반개량을 위하여 적극 도입되기 시작한 차세대 지반처리기술인 경량혼합토공법의 배합설계에 대한 고찰을 하였다. 경량혼합토는 건설잔토나 준설토 및 현장에서 발생하는 점토나 실트질 흙을 사토처리 하지 않고 현장에서 유용할 수 있는 매우 경제적이고 환경적인 공법으로서 일본에서는 지난 10여년에 연간 수백만톤의 경량혼합토를 생산하여 건설현장에 적용한 실적을 보유하고 있다. 특히 폐자원(폐타이어가루, 왕겨)을 경량혼합토에 첨가하여 건설재료 재활용을 위한 역학적 실험을 수행하였다. 본 연구에서는 경량혼합토를 제작하기 위해 필요한 배합설계변수인 원료토의 중량, 함수비 및 기포재와 첨가할 물의 양, 그리고 강도를 발현하기 위하여 필요한 고화재로서 시멘트첨가량에 대한 최적의 배합설계에 대한 분석을 하였다. 지금까지 제안된 시멘트함유량은 초기의 경량혼합토 목표강도가 주어지면 원료토의 조건에 따라 원하는 비중과 강도를 토대로 적절하게 현장에 적합하게 결정하는 단계에 있으나 일부 현장에서 지나친 목표강도 설정으로 과대한 시멘트를 사용하는 사례가 많아 국가적으로 막대한 손실을 초래하고 있다. 본 논문에서는 경량혼합토의 목표강도을 분석하고 그에 따른 최적의 시멘트함유량을 제시하고자 한다.

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Analysis of Compressive Strength of Lightweight Air-mixed Soil According to the Properties of Soil (원료토의 특성에 따른 경량기포혼합토의 압축강도 영향인자 분석)

  • Song, Jun-Ho;Im, Jong-Chul;Hong, Seok-Woo
    • Journal of the Korean Geotechnical Society
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    • v.24 no.11
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    • pp.157-166
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    • 2008
  • To investigate the relationship between compressive strength ($q_u$) of Lightweight Air-mixed soil (LAS) and its physical deformation coefficient ($E_{50}$), a series of unconfined compressive tests have been performed on specimens of LAS according to various dredged soil types by percentage of sand, silt and clay. From the results it was found that the cement content ($C_i$) and unit weight (${\gamma}_m$) are most influence factors on strength, and percentage of sand, silt, clay by grain size analysis (KS F2302) have more effect on compressive strength than other physical properties of soil. It was also found that the rate of strength (a) increases with curing time, but it reduces with the increase of percentage of clay ($C_%$).

Research on the Surface Improvement of High Soft Ground Using Calibration Chamber Test (모형토조실험에 의한 초연약지반의 표층개량에 관한 연구)

  • Bang, Seongtaek;Yeon, Yongheum
    • Journal of the Korean GEO-environmental Society
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    • v.20 no.5
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    • pp.39-46
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    • 2019
  • Most of the soil used for reclamation is marine clay generated from dredging construction.The soft ground made of dredged clay has high water content and high compressibility, so the bearing capacity of the ground is very weak and it is difficult to enter the ground improvement equipment. Therefore, surface hardening treatment method is used to enter equipment prior to full-scale civil engineering work, and stabilizer is mainly used for cement series. Cement-based stabilizers have the advantage of improving the ground in a short period of time and have excellent economic efficiency, but they are disadvantageous in that they cause environmental problems due to leaching of heavy metals such as hexavalent chromium. In this study, environmental effects evaluation of dredged clay mixed with normal portland cement and environmentally friendly stabilizer was evaluated, and uniaxial compressive strength test and indoor model test were conducted to confirm the bearing capacity characteristics of the solidified layer.

Mechanical Characteristics of Accelerated Flowable Backfill Materials Using Surplus Soil for Underground Power Utilities (굴착 잔토를 재활용한 지중전력구조물 뒷채움재의 역학적 특성)

  • Cheon, SeonHo;Jeong, Sangseom;Lee, DaeSoo;Kim, DaeHong
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.26 no.5C
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    • pp.303-312
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    • 2006
  • This study is to evaluate the mechanical characteristics of flowable backfill and offer a guide line of mixture proportion based on soil types for constructing underground power utilities. Flowable backfill is known as soil-cement slurry, void fill, and controlled low-strength material(CLSM). The benefits of CLSM are reduced equipment costs, faster construction, re-excavation in the future, and the ability to place materials in confined spaces, which are narrow parts or perimeters of underground power cables nearly impossible for compaction. The flowable slurry mixed with 17 soils and 6 accelerated mixtures in the laboratory were evaluated for flowability and unconfined compressive strength to meet the target values of this study.

A study on the fixation of heavy metals with modified soils in the landfill liner (개량혼합토를 이용한 폐기물 매립지 차수층의 중금속 고정능력에 관한 연구)

  • 노회정;이재영
    • Journal of Soil and Groundwater Environment
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    • v.7 no.2
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    • pp.63-71
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    • 2002
  • The authors selected the modified soil method, and then performed the geotechnical and environmental laboratory test, and evaluated whether the modified soil liner could be accepted as a barrier layer in landfill. Unlike the results of the natural soil(CL), those of the hydraulic conductivity test of stabilized soil met the standard value. According to these results, the optimal mixing ratio of a mixture(cement : bentonite : stabilizing agent) was 90 : 60 : 1 with mass ratio(kg) for 1㎥ with soil, and it was possible to use poor quality bentonite. B\circled2 because of a little difference from results with high quality bentonite. B\circled1. The Cation Exchange Capacity(CEC) of the modified soil was increased about 1.5 times compared with the natural soil; however. the change of CEC with a sort of additives was not detected. In order to observe the change of the chemical components and crystal structures, the natural and the modified soils with the sorts of additives were measured by the XRF(X-Ray Flourescence Spectrometer) and SEM, but there was no significant change. The artificial leachate with the heavy meals ($Pb^{2+}$ , $Cu^{2+}$, $Cd^{2+}$ Zn$^{2+}$ 100mg/L) was passed through the natural soil and modified soils in columns. In the natural soil, Cd$^{2+}$ and $Zn^{2+}$ were identified, simultaneously the pH of outflow was lower, and then came to the breakthrough point. The removal efficiency of the natural soil was showed in order of following : $Pb^{2+}$$Cu^{2+}$ > $Zn^{2+}$ > $Cd^{2+}$ On the other hand, modified soils were not showed the breakthrough condition like the result of the natural soil. The modified soil with the lower quality bentonite, B\circled2(column3) was more stable with respect to chemical attack than that with the higher bentonite, B\circled1(column2) because the change range of outflow pH in columns was less than that of outflow pH in column2. In addition, the case of adding the stabilizing agent(column4) was markedly showed the phenomena.ena.

Experimental Study on behavior of the Lightweight Air-foamed Soil Considering Freezing-thawing and Soaking Conditions (동결융해 및 수침조건을 고려한 경량기포혼합토의 거동 실험 연구)

  • Kang, Daekyu;Shin, Eunchul
    • Journal of the Korean GEO-environmental Society
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    • v.17 no.5
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    • pp.37-46
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    • 2016
  • In order to determine the variability of environmental characteristics of lightweight air-foamed soil using marine clay according to freezing-thawing and soaking conditions, unconfined compressive strength of the lightweight air-foamed soil samples made by changing the amount of cement under curing conditions of outdoor low temperature, underground or indoor wetting were observed. Compressive strength was not increased under freezing-thawing (temperature range of $-9.1^{\circ}C{\sim}17.2^{\circ}C$) regardless of the amount of cement but the more cement using, it was increased rapidly by underground curing conditions within 30 cm beneath ground level. Therefore, it is necessary to install insulation layer cutting off exterior cold air after construction of lightweight air-foamed soil in condition of freezing-thawing. Bulk density was increased too small under the long-time soaking condition, it tended to decrease rapidly when samples were dried up and had below 6% of water contents. But variability of compressive strength and bulk density was very small for preventing drying and keeping its wet state. The lightweight air-foamed soil that installed beneath ground water level or covered by soil can be evaluated as a long-term reliable construction material.