• Geotechnical Engineering
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• v.12 no.3
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• pp.165-173
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• 1996

본 기술 자료에서는 수압 터널에서 침투 수압을 고려한 터널 주위 암반의 응력 상태에 대한 수치 해석 방법, 해석 결과의 이용에 대하여 실제 수압 터널의 예를 들어 소개한다. 수압 터널의 안전성은 터널 주위 암반의 안전성에 의해 좌우되며 암반의 안전성은 Mohr-Coulomb의 파괴론을 사용하여 암반의 응력에 대한 안전율을 산정하여 판단한다. 산정된 암반의 안전율과 실제 수압 터널의 거동을 비교하여 수치 해석의 적정성을 판단하며 수압 터널의 보강 방법을 제안한다.

• The Journal of Engineering Geology
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• v.18 no.4
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• pp.447-457
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• 2008

Laboratory tests for single plane sliding were conducted using the model rock slope to investigate the cut slope deformability and failure mechanism due to combined effect of engineering characteristics such as angle of sliding plane, water force, joint roughness and infillings. Also the possibility of prediction of slope failure through displacement monitoring was explored. The joint roughness was prepared in forms of saw-tooth type having different roughness specifications. The infillings was maintained between upper and lower roughness plane from zero to 1.2 times of the amplitude of the surface projections. Water force was expressed as the percent filling of tension crack from dry (0%) to full (100%), and constantly increased from 0% at the rate of 0.5%/min and 1%/min upto failure. Total of 50 tests were performed at sliding angles of $30^{\circ}$ and $35^{\circ}$ based on different combinations of joint roughness, infilling thickness and water force increment conditions. For smooth sliding plane, it was found that the linear type of deformability exhibited irrespective of the infilling thickness and water force conditions. For sliding planes having roughness, stepping or exponential types of deformability were predominant under condition that the infilling thickness is lower or higher than asperity height, respectively. These arise from the fact that, once the infilling thickness exceeds asperities, strength and deformability of the sliding plane is controlled by the engineering characteristics of the infilling materials. The results obtained in this study clearly show that the water force at failure was found to increase with increasing joint roughness, and to decrease with increasing filling thickness. It seems possible to estimate failure time using the inverse velocity method for sliding plane having exponential type of deformability. However, it is necessary to estimate failure time by trial and error basis to predict failure of the slope accurately.

• Tunnel and Underground Space
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• v.11 no.3
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• pp.237-247
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• 2001

In this study, the fracture mechanics model as well as the elastic model was reviewed theoretically and four field case studies were conducted to investigate the feasibility of fracture mechanics model for hydraulic fracturing test. There was a difference between the result by fracture mechanics model and the one by elastic model. And the smaller initial crack length is, the larger the difference is. It is considered that the fracture mechanics model can be applied to the specific case of which the crack length is known. In this study, the rock tensile strength is measured using fracture mechanics model, brazilian test and elastic model. The measured tensile strength by the fracture mechanics model is the largest and the elastic model is the smallest. This result is due to the size effect of the each test. And the tensile strength from the elastic model for hydraulic fracturing test can be used to estimate the in-situ rock tensile strength.

• Proceedings of the Korea Water Resources Association Conference
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• 2019.05a
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• pp.200-200
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• 2019

본 연구에서는 실제 가압장 및 가압장후단부의 상수도관망에 발생가능한 수충격해석을 수행하고 신뢰성해석을 수행하여 파괴확률을 정량적으로 산정하였다. 이를 위해 가압장의 펌프운영조건을 다르게 적용하였고 관말단부의 압력센서를 이용하여 토출압을 선택적으로 운영하면 수충격의 규모도 작아지고 파괴확률도 대폭 줄어드는 것을 확인할 수 있었다. 가압장의 토출압을 선택적으로 운영하기 위해서는 관말단부에 필수적으로 충분한 수압이 존재해야하며 이를 위해서 실시간 모니터링이 가능한 압력계를 설치하게 된다. 이 압력계로부터 수신되는 데이터를 통하여 펌프의 운영이 이루어지고 최소한의 에너지 사용을 통해 효율을 증대하고 피해율도 저감하게 된다. 본 연구에서 개발된 센서기반 펌프운영시스템이 적용된 실제 상수도관망은 현재 가압장의 운영조건으로 24시간 75m의 펌프 토출압을 유지하고 있으며 관말단부의 수용가에 충분한 수압이 전달되고 있다. 가압장의 고압유지는 관말단부에 충분한 수압을 전달하기 위한 것이지만 상수도관망에서 누수와 시설물에 대한 많은 피해를 유발할 수 있다. 따라서 본 연구에서는 가압장의 펌프토출압을 75m와 60m로 선택적 운영을 할 수 있도록 프로그램을 개발하였다. 기존 가압장의 운영조건과 선택적 운영조건을 사용하여 수충격해석을 수행하였고 신뢰성해석모형을 사용하여 파괴확률을 정량적으로 산정할 수 있었다. 가압장의 운영조건을 최적화하여 효율은 증대하고 피해율을 저감할 수 있는 방법을 찾을 수 있었다. 이를 위해서 가압장의 인버터 설치는 물론이고 펌프의 최적운영을 위해 개발된 펌프운영 프로그램을 가압장 배전반에 장착하여 경제적인 운영이 될 수 있을 뿐만 아니라 실제 상수관망에서 과도한 수압으로 인해 발생할 수 있는 여러 가지 피해를 최소화할 수 있을 것으로 판단된다. 또한, 본 연구에서는 기존의 펌프장 토출압으로 운영되었을 때와 비교하여 에너지 절감율을 정량적으로 산정하여 비교분석하였다. 가압장 후단의 작은 마을을 대상으로 하여 절감된 전기요금은 적은 양이라 할 수 있겠으나 개발된 시스템을 전국에 적용한다면 에너지 절감으로 인한 경제적 파급효과는 크다고 할 수 있다.

• Computational Structural Engineering
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• v.9 no.4
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• pp.189-198
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• 1996

The fracture behaviour of concrete gravity dam mainly due to uplift pressure acting at the crack face was studied. Triangular type and parabolic type distribution of the uplift pressure including uniform type were first considered in case of calculating stress intensity factor(SIF) by the surface integral method. Second, the directions of crack propagation according to the uplift pressure distribution were pursued by FRANC(FRacture ANalysis Code). Third, critical crack lengths according to the uplift pressure distribution under the overflow depth were calculated. The SIF values obtained from the surface integral method were compared with those by FRANC and relatively good agrements could be obtained between both of them. And it could be seen that the direction of crack propagation in case of triangular pressure distribution was a little benter to the dam base than the one by the uniform type. Maximum critical crack lengths under the overflow depth were obtained at about 2/5-1/2 of the dam height.

• The Journal of Engineering Geology
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• v.14 no.4 s.41
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• pp.429-442
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• 2004

Landslide of the Whanpyeong Mountain which was occurred at Busan Metropolitan City in 1999 belongs to the category of plane failure. Automatic monitoring system to measure horizontal displacement, pore pressure change and load change has operating from reconstruction stage for evaluating rock slope stability (August, 2000$\~$Feburuary, 2002). As a result of the analysis on the monitoring performance data, it is suggested that infiltrated rain water from pound surface discharges rapidly through cut-slope because pressure head of water decreases rapidly after rainfall while rise of pore pressure is proportional to the amount of rain water. As a result of data analyses for inclinometers and load cells, it seems that slope is stablized be cause ground deformation is rarely detected. The areas especially similar to the study site where landslide is induced by heavy rain fall, change of pore pressure is rapidly analyzed using automatic monitoring system. Therefore, it is considered that automatic monitoring system is very effect for slope stability analysis on important cut-slopes.

• Proceedings of the Korean Society for Rock Mechanics Conference
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• 2008.03a
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• pp.239-250
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• 2008

• KSCE Journal of Civil and Environmental Engineering Research
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• v.5 no.4
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• pp.15-22
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• 1985

The author has studied the collapse of a slope with seepage occuring in sand model with a trapezodial cross section. The primary objective of this study was to examine the failure phenomenon of embankment with respect to change in void pressure at embankment slope. The contents of this experiments are as follows; 1) Determination of exit point by seepage line. 2) Evaluation of partial failure at exit point. 3) The effects of seepage force at embankment.

• Journal of the Korean Society for Nondestructive Testing
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• v.18 no.2
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• pp.92-102
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• 1998

Prediction of failure behavior in filament-wound composite motor cases is one of the important issues for their reliable application. Acoustic emission during hydroproof testing of the cases is used to solve this problem. Based on the acoustic emission behavior, failure sites can be located successfully. The identification of failure modes is also possible using the distribution of acoustic emission amplitude. Due to the limitation in the number of samples, it is not possible to predict the final burst pressure of motor cases and the effect of impact damage on the final burst pressure.

• Journal of the Korean Geotechnical Society
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• v.22 no.3
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• pp.13-21
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• 2006

Geosynthetic damage has attracted a major attention since the introduction of geotextiles for civil engineering applications. In this study 3 pilot trial embankments were carried out to investigate the behaviours of reinforced embankments over soft cohesive soils and to find the optimum methodology of embankments over soft soils. As the seamed part of polyester mat (PET, tensile strength 15 ton) used in the first full-scale field test was ruptured under progressing rotational slope failure because of unexpectedly rapid construction of embankments, the excessive pore water pressures were measured. On the soil behavior where tension explosion of mat was continued, pore pressure larger than the one caused by embankment height was measured. Especially, at the depth of 5.0 m under the ground pore pressure increased over long term. It was discussed with respect to the height of embankment and heaving behavior of soft soils.