• Title/Summary/Keyword: 흙 시멘트

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Phase Changes of Soil-Cement Mixture Using Fall Cone and Heat of Hydration (Fall cone과 수화열을 이용한 흙-시멘트 혼합물의 상 변화 연구)

  • Kim Jae-Hyung;Won Jeong-Yun;Kim Sung-Pil;Chang Pyoung-Wuck
    • Journal of the Korean Geotechnical Society
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    • v.20 no.9
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    • pp.25-32
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    • 2004
  • Some amount of cements can be added into the soil with high water content to improve the engineering properties. In such a case, it is difficult to predict and figure out the phase changes of the soil-cement mixture which is closely associated with workability of the soil-cement mixture. Changes in heat of hydration and hardness of the cement pastes are known to provide the useful information about the phase changes of the soil-cement mixtures. In this study, heat of hydration and cone penetration depth were measured from the specimens of cement paste and 3 soil-cement mixtures. From the experimental results, it was found that the phase changes of the soil-cement mixtures are the same as those of cement paste, and that shear strength of the mixtures abruptly increases when the heat of hydration is minimum. Initial setting time of the mixtures coincides with the state when fall cone penetration depth was 1.0 mm and it is defined as plastic limit of the mixtures. Initial setting time of the mixtures is retarded as soil/cement ratio is increased. Measurements of heat of hydration and fall cone apparatus could be the useful tools to predict the phase changes of tile soil-cement mixtures.

A Constitutive Model for Cemented Clay in a Critical State Framework (한계상태이론을 이용한 시멘트 고화처리 점토에 대한 구성 모델)

  • Lee, Song;Lee, Kyu-Hwan;Yi, Chang-Tok;Jung, Dae-Suk
    • Journal of the Korean Geotechnical Society
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    • v.17 no.1
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    • pp.119-129
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    • 2001
  • 연약지반 개량을 위한 시멘트의 사용은 깊은 심도의 점토 지반을 개량하는데 일반적으로 사용되는 기술이 되었다. 시멘트는 지반의 강도를 증가시키고 압축성을 감소시키는 역할을 한다. 시멘트-흙 혼합물의 강도 증가에는 여러 가지 요소가 있는데 이중 대표적인 것은 시멘트량, 흙의 종류, 함수비, 양생시간 등을 들 수 있다. 시멘트 첨가량이 적은 경우, 전단 강도증가는 기본적으로 시멘테이션 효과로 인한 점착력의 증가에 의한 입자들간의 마찰력으로부터 발생한다. 이러한 거동은 과압밀된 흙의 거동과 유사함을 볼 수 있다. 시멘트량이 많은 경우, 강도 증가의 주원인은 입자간의 물리적 결합에 기인하는데 이는 연약한 암석과 비슷한 거동을 한다. 시멘트 고화처리 흙의 응력-변형 거동을 분석하기 위해 한계상태 이론을 적용하였다. 그리고, 토립자간의 시멘테이션 효과를 반영하기 위해 새로운 한계상태 파라메타를 도입하였으며 시멘트 고화처리 점토의 거동을 분석하기 위한 새로운 한계상태 모델을 제시하였다.

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Strength Development of Dry-Mixed Earthen Concrete Incorporating Red Mud and Recycled Asphalt Concrete Aggregates (폐아스콘 순환골재를 활용한 레드머드 혼입 건식 흙콘크리트의 강도 발현 특성)

  • Kang, Suk-Pyo;Park, Kyu-Eun;Kim, Sang-Jin
    • Journal of the Korea Institute of Building Construction
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    • v.24 no.4
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    • pp.403-411
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    • 2024
  • This study investigated the use of recycled aggregate from waste asphalt concrete in dry soil concrete mixed with red mud. The results showed that dry soil concrete utilizing waste asphalt recycled aggregate had relatively lower compressive strength compared to that using crushed aggregate. However, dry soil concrete mixed with red mud using waste asphalt recycled aggregate achieved a compressive strength of over 18.0MPa, meeting the highest performance standard for parking lot use, when the cement content was more than 250kg/m3.

Characteristic evaluation of settlement and stiffness of cement-treated soils with the change of fines content under cyclic dynamic loading (세립분 함량 변화에 따른 반복 동하중을 받는 시멘트 혼합토의 침하 및 강성 특성평가)

  • Kim, Dae Sang
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.21 no.10
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    • pp.23-29
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    • 2020
  • The soil structures settle down continuously under cyclic dynamic loading after opening railway lines. This study examined the characteristics of the settlement and stiffness of cement-treated soils with the change in the content of fines under cyclic dynamic loading. Eighteen cases of the test were carried out with the changes in the fines content of soils, cement content, and curing days. Based on the test results, cement-treated soils containing more than 3% of cement could decrease settlement sufficiently even with a high portion of fines under cyclic dynamic loading. In addition, the elastic and plastic settlements could be reduced using 3 to 4% cement to the level of 1/4 and 1/6, respectively. In the viewpoint of stiffness, the resilient modulus of cement-treated soils increases with increasing cement content. Using more than 3% of cement, the 80MPa compaction stiffness standard for the upper subgrade of railways was satisfied, even with 40% of fines content of soils.

Unconfined Compressive Strength of Soil Cement Mixed with NSC (NSC를 첨가한 소일시멘트의 일축압축강도)

  • 김병일;김영욱;이승현
    • Journal of the Korean Geotechnical Society
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    • v.18 no.4
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    • pp.159-165
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    • 2002
  • Soil cement which is a mixture of soil, cement, and water has a broad range of applications since it is economical, ecological, and easy to use, repair, and reinforce. Its applications include pavements, stabilization of slopes, retaining walls, and improvements of soft ground to name a few. Other types of chemicals are often added to increase its strength. This study investigated unconfined compressive strength of cured soil cement mixed with New Soil Chemical(NSC). The investigation involved laboratory experiments under various conditions including soil type, cement content, and ratios of water to NSC. Results of the study show that NSC enhanced the unconfined compressive strength significantly, and the degree of enhancement was varied with test conditions.

Unconfined Compressive Strength of Soil-Cement Pavement with Recycled Red Mud (레드머드가 첨가된 흙-시멘트 포장의 일축압축강도)

  • Lee, Yunkyu;Baek, Seungcheol;Holtz, R.D.;Jeong, Dongyoung
    • Journal of the Korean GEO-environmental Society
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    • v.9 no.7
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    • pp.37-43
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    • 2008
  • The unconfined compressive strength of soil-cement mixed with red mud, an industrial by-product of alumina production, was investigated in the laboratory. The investigation involved laboratory tests under the various conditions such as red mud content, cement content, fly ash content and ratio of soil replacement with sands. The unconfined compressive strength tests were performed at 7, 14 and 21 days after specimen preparation. Results of the study show that the unconfined compressive strength increased as red mud and fly ash content decreased and cement content increased. Increasing the soil replacement ratio with sands had an insignificant effect on compressive strength because the soil had a similar particle size as the replacement sands.

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A Study on Strength Properties of Soil Cement Specimen using Processed Recycle Resources as Cement Admixtures (가공된 순환자원을 시멘트 혼화재로 활용한 흙 시멘트 공시체의 강도 특성에 관한 연구)

  • Choi, Woo-Seok;Ha, Eun-Ryong;Kim, Eun-Sup;Jung, Seung-Hwan
    • Tunnel and Underground Space
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    • v.27 no.5
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    • pp.312-323
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    • 2017
  • In this study, an influence of mixing ratio among firing oyster shell, non-firing oyster shell, magnetic separated converter steel slag and fly ash used as admixtures on strength properties of soil cement was evaluated by correlation analysis among compressive strength, deformation modulus and mixing ratio of admixtures. As a result, the strength of the specimens containing non-firing oyster shells was found to be larger than that of firing oyster shells, and it was confirmed that firing oyster shells could negatively affect the strength of soil cement specimens unlike previous studies. In addtion, there was a positive correlation between the ratio of magnetic separated converter slag and strength properties, so it is confirmed that it can be used as an admixture.

Mechanical Characteristics of Kaolin-cement Mixture (카올린-시멘트 혼합재료의 공학적 특성)

  • Lee, Kyu-Hwan;Lee, Song;Yi, Chang-Tok
    • Journal of the Korean Geotechnical Society
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    • v.18 no.1
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    • pp.113-125
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    • 2002
  • Ground improvement technique of cement stabilization via Deep Soil Mixing with dry cement is gaining popularity, particularly in Japan and other parts of Southeast Asia and in Scandinavia. Cement can be mixed with deep soft clay deposits, typical of marine environments, to improve the bearing capacity and/or reduce the compressibility of the material so that an otherwise poor site can be developed. However, the strength/deformation behaviour and resulting soil structure of the clay-cement mixture is presently not well understood with respect to both dry and wet mix methods. An extensive laboratory test was carried out to determine the mechanical characteristics of kaolin-cement, with some brief examination of the effects of curing environment. Laboratory tests include triaxial tests, unconfined compression tests, isotropic consolidation testis and oedometer tests. Cement contents up to 10 percent were considered and water curing was employed. Samples were cured for 7 to 112 days while submerged in distilled water. Conventional laboratory tests were also performed. In this paper, the laboratory testing program is described and various sample preparation techniques are discussed. Preliminary triaxial compression test results and trends at varying moisture contents, cement contents, confining pressures and curing times will be presented.