• 한국철도학회:학술대회논문집
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• 한국철도학회 2002년도 추계학술대회 논문집(I)
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• pp.608-613
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• 2002

This study was under taken as an analysis of failure mode in a railroad bed reconstructed with miniaturized Geotextile Container after being destroyed by heavy rain. It assesses the practical use of the bag shaped Geotextile Container method in the rehabilitation of destroyed roadbeds. The failure mode was assessed using the laboratory model tests to determine the following criteria: Strain of Geotextile Container, Vertical ＆ Horizontal displacements of Geotextile Container layer, and the transmitting load effects due to the applied load. The Geotextile Container layer was failed as a Block Failure type, although there was some variation in the results between the saturated and unsaturated conditions. The main failure was caused by the reduction of the interface friction between Geotextile Containers. The result of this mobilizes the significant horizontal displacement and the ultimate failure of the Geotextile Container layer. The strain on the wet Geotextile Container was occurred about two times greater than that of dry condition.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2000년도 토목섬유 특별세미나
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• pp.19-31
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• 2000

Geotextile container method is an environment-friendly construction method that is utilized to build up a breakwater and an underwater embankment, etc. using geotextile container, which is producted by filling the geotextile bag with sand or dredged materials. Geotextile containers are divided into geobags, geotubes and geocontainers based on their size and production method. In recent years, the number of application for the geotextile container method is rapidly increasing in the world, and the development of the effective construction method is focused. In this study, the application and the achievement of the geotextile container method will be introduced, and the practical construction examples and the trend of technology development in foreign country will be discussed.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2003년도 추계학술대회 논문집(II)
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• pp.92-97
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• 2003

Roadbed failure due to the rainfall may bring out social and economic demage such as the loss of life and property, the consumption of time and cost for recovery, and the delay of logistics in railway. In this study, the method using Geotextile Container was applied to rehabilitation of the railway roadbed which was failed by rainfall. The real scale tests with the simulated train loading were performed in order to evaluate the dynamic performance at the railway roadbed using Geotextile Container. The results of these tests were compared with unreinforced and reinforced cases with Geotextile Container, respectively. The data gathered by various measurement devices from these real scale tests would be useful to evaluate and understand the roadbed with Geotextile Container. Furthermore, the results of this study would be useful to ensure the workability and to save much time for restoration and to be widely applied to practical use.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2003년도 추계학술대회 논문집(II)
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• pp.79-84
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• 2003

Utilizing of the geotextile container shows several advantages such as standardized construction, factory manufactured products, the control of quality, workability, and economical point of view. Recently this technique can be applied to rehabilitate the loss of rail roadbed due to the heavy rainfall. In this study, a large-scale laboratory test were conducted with simulation of static performance on the geotextile container reinforced rail roadbed. Based on the laboratory test results, the vertical pressure distribution with respect to the depth, and settlement of rail roadbed were measured and compared test results between geotextile container reinforced case and unreinforced case. Thus, the effectiveness of reinforcement was evaluated in terms of its performance and stability.

• 한국지반신소재학회논문집
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• 제7권3호
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• pp.1-7
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• 2008

본 연구에서 검토한 지오텍스타일 컨테이너와 튜브를 활용한 수로구조물은 UAE에서 수행한 프로젝트로 수심이 4.0m 이하인 경우 지오텍스타일 컨테이너를 저개식 바지로부터 해저바닥에 착지시키는 방법으로 시공하고 그 윗부분은 지오텍스타일 튜브로 시공을 수행하였다. 따라서, 본 연구에서는 지오텍스타일 컨테이너와 튜브를 활용하여 해상의 발전소 방파제 수로구조물 축조 시 고려된 구조물의 개별 및 다단구조물의 안정성, 지오텍스타일 재질 선택에 관련한 설계인자를 분석하였다. 또한, 방파제 구조물이 위치한 현장이 발전소의 용수의 유입과 유출이 발생하는 구역으로 발전소 유출입수의 온도가 방파제 구조물 내부의 온도변화에 미치는 영향에 대하여 분석하였다.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2004년도 춘계학술대회 논문집
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• pp.1033-1040
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• 2004

Utilizing of the geotextile container shows several advantages such as standardized construction, factory manufactured products, the control of quality, workability. and economical point of view. Recently this technique can be applied to rehabilitate the loss of rail roadbed due to the heavy rainfall. In this study, a large-scale laboratory test were conducted with simulation of static performance on the geotextile container reinforced rail roadbed. Based on the laboratory test results, the vertical pressure distribution with respect to the depth, and settlement of rail roadbed were measured and compared test results between geotextile container reinforced case and unrein forced case. Thus, the effectiveness of reinforcement was evaluated in terms of its performance and stability.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2002년도 추계학술대회 논문집(I)
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• pp.587-595
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• 2002

Geotextile containers for restoration of slopes form the interface between the containers during the restored to lost slopes, and therefore the relation displacements are developed including the sliding on the surface. Since, the shear strength on these interfaces is less than that of fill material in the container, the characteristics of shear strength on the interface governs the behavior of the restoration slopes. In general, a lot of natural properties of geotexiles is required to evaluate the safty of the geotextiles, Among the properties, the shear characteristics between geotextiles and soil is a important variable to assess the safety. From the results of full scale direct shear test, the residual shear strength is recommanded to use for design factors since a large deformation possibly occures on the geotextile containers.

• Geomechanics and Engineering
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• 제9권2호
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• pp.243-259
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• 2015

Comparative study has been performed to investigate the behavior of dredged fills on rigid (Model 1) and flexible (Model 2) containers. The study was focused on the sedimentation of soil fills and the development of total stresses. Model 1 is made of an acrylic cylinder and Model two is a scale-size geotextile tube. Results indicate that for rigid containers, significant decrease of the sediment height is apparent during the dewatering process. On the other hand, because the geotextile is permeable, the water is gradually dissipated during the filling process on flexible containers. Hence, significant loss in the tube height is not apparent during the duration of the test. Pressure spikes are apparent on rigid containers during the filling process which can be attributed to the confining effect due to hydrostatic pressure. For the flexible containers, the pressure readings gradually increases with time during the filling process and normalize at the end on the filling stage. No pressure spikes were apparent due to the gradual dissipation of pore water pressure.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2003년도 추계학술대회 논문집(II)
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• pp.403-410
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• 2003

Annual roadbed failure due to the rainfall has brought out the social and economic damage such as the loss of life and property, the consumption of time and cost for recovery, and the delay of logistics in railway. However, there was not an appropriate way that could be used as a permanent solution. As a suggestion of the answer to this problem, the method using Geotextile Container was considered for the rehabilitation of the failed railway roadbed, and the numerical analysis is applied for the evaluation of the slope stability. This study focused on the most common case among the roadbed failures. In addition, the investigation for the applicability of this method as a permanent use was made.

• 대한토목학회논문집
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• 제2권4호
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• pp.39-47
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• 1982

본(本) 연구(硏究)에서는 연약점토지반(軟弱粘土地盤) 위에 성토시(盛土時) 보강재(補强材)와 vertical drain재(材)로서의 geotextile의 효과(効果)를 모형실험(模型實驗)을 통(通하)여 조사하였다. 실험은 점토층(粘土層)과 성토층(盛土層) 사이에 woven fabric을 포설(鋪設)하지 않은 경우, fabric을 포설(鋪設)한 경우, fabric에 서로 다른 인위적(人爲的) 인장력(引張力)을 가(加)한 2가지 경우 등 4단계(段階)로 수행(遂行)하였으며 각(各) 단계(段階)마다 압밀(壓密)을 촉진(促進)시키기 위해 non-woven fabric을 사용(使用)한 vertical drain을 점토층(粘土層) 내(內)에 정방형(正方形)으로 배치(配置)하였다. 실험(實驗)모델은 밑면이 $32cm{\times}330cm$이며, 50cm점토층(粘土層) 위에 47cm 높이의 성토제방(盛土堤防)이 1:1.5의 기울기로 만들어졌다. 모형실험대(模型實驗臺)의 양쪽 면에 대칭적(對稱的)으로 8개의 piezometer를 설치(設置)하여 시간(時間)에 따른 공극수압(空隙水壓)을 측정(測定)하였으며 성토제방(盛土堤防) 내부(內部)에 LED램프를 삽입(揷入)하여 시간(時間)에 따른 내부(內部) 변형(變形)을 조사하였고, 제방(堤防)이 설치(設置)되지 않은 점토지반(粘土地盤) 양쪽에는 dialgauge를 부착(附着)하여 융기현상(隆起現象)을 조사하였다. 이러한 실험(實驗)은 1차압밀(次壓密)에 요구(要求)되는 시간(時間)(약(約) 10일(日))동안 수행(遂行)되었다. 실험(實驗)으로부터 점토층(粘土層) 내(內)에 유발(誘發)된 최대과잉공극수압(最大過剩空隙水壓)을 측정(測定)하여 woven fabric을 포설(鋪設)하지 않은 경우의 이론적(理論的)인 최대과잉공극수압(最大過剩空隙水壓)과 비교(比較)함으로써 보강재(補强材)로서의 woven fabric을 포설(鋪設)하였을 경우에도 시간(時間)에 따른 성토부(盛土部) 침하량(沈下量)을 산정(算定)할 수 있음이 밝혀졌다.