• 터널과지하공간
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• 제11권4호
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• pp.344-351
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• 2001

발파를 이용한 터널굴착에 있어서, 장약량 산정이나 터널 주변 암반 및 구조물웨 대한 영향 평가 등은 주로 간단한 경험식에 의해 이루어져 왔다. 또한 지금까지 발파의 충격에너지를 고려한 지하구조물의 동해석 연구는 매우 빈약한 실정이라 할 수 있다. 따라서 본 연구에서는 발파하중을 받는 불연속체 지하구조물의 비선형 거동을 평가하기 위하여 2차원 개별요소법의 수치모델기법을 개발하였고, 실제문제에의 적용성을 검토하기 위하여 제방하부에 위치한 터널발파의 수치해석을 통하여 시간별 지하 및 지상 구조물의 변위 및 입자속도의 전파과정을 살펴보았다. 해석결과 본 연구에서 제안한 발파하중의 모형이 실제 문제에 적용될 수 있었고, 이를 개별요소해석에 적용함으로써 발파지역 주변의 구조물의 안정성을 검토할 수 있었다.

• 한국산학기술학회논문지
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• 제21권5호
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• pp.679-686
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• 2020

본 연구에서는 공용 중인 하천 제방을 대상으로 포항지진파를 재현주기 200년, 500년, 1000년 그리고 2400년으로 생성하여 지진취약성을 정량적으로 분석하였다. 재현주기에 따른 지진취약성 분석을 위해 하천 제방에 측점을 설정하여 제방의 거동을 분석하였다. 연구결과, 지진 발생 시의 변위는 입력지진파와 유사한 경향성을 보였으며 재현주기 2400년에서 가장 크게 산정되었다. 활동 안정성 검토 결과, 지진 발생전의 안전율을 기준으로 재현주기 2400년일 때 제내지는 약 31.5% 감소하였고 제외지는 약 26.7% 감소하는 것으로 나타났다. 모든 재현주기에서 최소 기준 안전율을 만족하는 것으로 나타났다. 하지만, 유효응력경로상 q/p' 비율에 따른 액상화를 검토한 결과, 지진으로 인한 제채 내부의 침윤면이 상승하여 재현주기 2400년일 때는 제채 대부분에서 액상화가 발생하는 것으로 나타나 지진에 상당히 취약한 것으로 나타났다. 본 연구를 통해 국내 내진 설계 기준의 재정립이 필요함이 입증되었다고 판단되며, 동역학적 방법을 통한 검토 결과에 대한 명확한 기준 성립이 필요하다고 판단된다.

• 한국지반신소재학회논문집
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• 제8권4호
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• pp.27-34
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• 2009

본 연구에서는 토목섬유가 층상으로 보강된 슬래그 재료의 전단강도와 변형특성을 다루었다. PET mat와 같은 토목섬유에 의한 보강이 슬래그의 전단강도와 변형특성에 미치는 영향을 조사 및 분석하기 위해 압밀배수 조건 하에서의 대형삼축압축시험을 수행하였다. 연구에 사용된 슬래그 재료는 현장에서 사용되는 재료와 동일한 재료로서 scale effect로 인한 문제점은 없었다. 토목섬유로 보강된 슬래그의 응력-변형율 거동은 무보강시 보다 다일러턴시의 양이 작고, 축변형율 증가시 항복 이후에도 축차응력이 증가하는 변형율경화(strain hardening) 거동을 나타내었다. 토목섬유로 보강된 슬래그 재료의 겉보기 점착력과 내부마찰각 등의 강도정수는 보강되지 않은 경우의 값보다 1.2-1.4배 정도 크고, 구속압 수준이 클수록 커지는 것으로 나타났다. 따라서 슬래그를 사용한 제방의 설계나 시공시 슬래그 재료에 토목섬유를 층상으로 보강하여 사용할 경우에는 강도증가 효과에 의해 안전율을 향상시킬 수 있을 것으로 기대된다.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2006년도 춘계 학술발표회 논문집
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• pp.96-102
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• 2006

Because of the increasing need to use clayey soil as the backfill in reinforced soil structures and embankment material, nonwoven geotextiles with the drain capability have been receiving much attention. However, there are few studies of the deformation behavior of nonwoven geotextiles at geosynthetics reinforced soil structures in the field because the nonwoven geotextile, which has low tensile stiffness and higher deformability than geogrids and woven geotextiles, is difficult to measure its deformation by strain gauges and to prevent the water from infiltrating. This study proposes a new, more convenient method to measure the deformation behaviour of nonwoven geotextile by using a strain gauge; and examines the availability of the method by conducting laboratory tests and by applying it on two geosynthetics reinforced soil (GRS) walls in the field. A wide-width tensile test conducted under confining pressure of 7kPa showed that the local deformation of nonwoven geotextile measured with strain gauges has a similar pattern to the total deformation measured with LVDT. In the field GRS walls, nonwoven geotextile showed a larger deformation range than the woven geotextile and geogrid; however, the deformation patterns of these three reinforcement materials were similar. The function of strain gauges attached to nonwoven geotextile in the walls works normally for 16 months. Therefore, the method proposed in this study for measuring nonwoven geotextile deformation by using a strain gauge proved useful.

• 한국환경복원기술학회지
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• 제5권3호
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• pp.15-22
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• 2002

To analysis of the embanked slope stability using a jointed reinforcement, the internal stability and the external stability have to be satisfied, respectively. But, because the lengths of ready-made steel-grid were limited, the reinforcements must be connecting themselves to the reinforcing. In this study, the mechanical test was carried out to investigate the tensile failure and the pullout failure at the joint parts of them, which was based on the analysis of reinforced slope in field. Through the tensile tests in mid-air for the jointed steel-grid, the deformation behavior was seriously observed as follows : deformation of longitudinal member, plastic deformation of longitudinal member and of crank part. Those effects were due to the confining pressure and overburden pressure of the surrounding ground. The bearing resistance at jointed part of jointed steel-grid was due to the latter only. The maximum tensile forces were higher about 20kN~27kN than ultimate pullout resistance, but, the results of those was almost the same in mid-soil. The failures of steel-grid occurred at welded point both of longitudinal members and transverse members and of jointed parts. The strength of jointed parts itself got pullout force about 20kN, which was about 65% for ultimate pullout force of the longitudinal members N=2. To the stability analysis of reinforced structure including the reinforced slope, the studying of connection effects at jointed part of reinforcement members must be considered. Through the results of them, the stability of reinforced structures should be satisfied.

• Geomechanics and Engineering
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• 제12권3호
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• pp.417-439
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• 2017

The stone columns are increasingly being used as a soil improvement method for supporting a wide variety of structures (such as road embankment, buildings, storage tanks etc.) especially built on soft soil. Soil improvement by the stone column method overcomes the settlement problem and low stability. Nevertheless, stone column in very soft soils may not be functional due to insufficient lateral confinement. The required lateral confinement can be overcome by encasing the stone column with a suitable geosynthetic. Encasement of stone columns with geogrid is one of the ideal forms of improving the performance of stone columns. This paper presents the results of a series of experimental tests and numerical analysis to investigate the behavior of stone columns with and without geogrid encasement in soft clay deposits. A total of six small scale laboratory tests were carried out using circular footing with diameters of 0.05 m and 0.1 m. In addition, a well-known available software program called PLAXIS was used to numerical analysis, which was validated by the experimental tests. After good validation, detailed of parametric studies were performed. Different parameters such as bearing capacity of stone columns with and without geogrid encasement, stiffness of geogrid encasement, depth of encasement from ground level, diameter of stone columns, internal friction angle of crushed stone and lateral bulging of stone columns were analyzed. As a result of this study, stone column method can be used in the improvement of soft ground and clear development in the bearing capacity of the stone column occurs due to geogrid encasement. Moreover, the bearing capacity is effected from the diameter of the stone column, the angle of internal friction, rigidity of the encasement, and depth of encasement. Lateral bulging is minimized by geogrid encasement and effected from geogrid rigidity, depth of encasement and diameter of the stone column.

• 한국농공학회지
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• 제30권4호
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• pp.94-108
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• 1988

The use of geotextile as reinforcing materials in soil structures has become widespread throughout the world. Geotextile reinforcement has been used in retaining walls, roadbed, embankment stabilization and especially reinforcement of soft foundation, and so on, In the past, however, its design and construction have been performed empirically. In this study, laboratory model tests were carried out in order to investigate the effects of geotextile rein- forcement on vertical and horizontal displacement and other characteristics in soft founda- tions. The experiments were executed in eight treatments ;no geotextile between embank - ment and subsoils, and seven geotextiles with different tensile strength. And such factors as the loading conditions, the tensile strength of geotextiles, the ingredient of geotextiles and the elapsed time were investigate in this study. And the analytical method were executed in order to study the stress and behavior of geotextile - reinforced soil structure by the nonlinear elasto - plastic finite element model. The following conclusions were drawn from this study. 1. Geotextile reinforcement reduced the effects of banking loads on subsoils more effectively with the increase of their tensile strength. 2. As the tensile strength of geotextiles was increase, the rate of the initial vertical disp - lacements of loading plate was reduced inverse proportional to loads, Rowever, the effect of loading was reduced when the loads exceed a certain limits, 3. The effect of reinforcement of nonwoven geotextile was 1.5-4.5 times larger than that of the woven geotextile with equivalent tensile strength. 4. The increased bearing capacity and the reduced settlement are proportioned as the tensile strength of geotextile. 5. The settlement at the long time loading were developed almost all, were completed after 10 days and the additional settlement were not developed since then. 6. The nonlinear elasto - plastic finite element method are accurate to predict the stresses and behayior of geotextile - reinforced soil structures.

• 한국철도학회논문집
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• 제20권2호
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• pp.248-256
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• 2017

고속철도 콘크리트궤도의 일부 토공구간 침하 원인으로 지하수위 저하가 보고되었다. 이에 본 연구에서는 현장 계측 값과 수치해석을 통하여 지하수위 저하에 따른 침하 영향을 분석하였다. 시행착오법을 이용한 역해석을 통해 구성된 수치해석 모델을 이용하여 지하수위 저하, 연약층의 두께, 성토고에 따른 잔류침하거동을 검토하였다. 4m이상의 연약층이 존재할 경우, 지하수위 저하에 의한 원지반침하량은 30mm이상으로 예상되어 설계 및 시공단계에서 지하수위 거동에 의한 침하도 설계시 고려되어야 할 것으로 보인다.

• 한국지반환경공학회 논문집
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• 제6권4호
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• pp.37-46
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• 2005

폐타이어는 높은 인장저항력으로 인하여 지반보강에 사용될 수 있을 뿐 아니라 재활용시 대량처리에도 효과적이다. 폐타이어를 지반보강재로 사용하기 위하여 타이어 트레드만을 이용한 트레드매트를 제작하였다. 현장에서 화강풍화토지반을 조성하여 트레드매트의 보강효과를 알아보기 위하여 트레드매트와 상업용 지오그리드 각각에 대한 평판재하시험을 수행하였다. 그리고 지반보강재 인접 지반에서의 응력과 변형을 알아보기 위해 수치해석을 수행하였다. 트레드매트는 상업용지오그리드 못지 않은 지반보강효과를 나타내었다. 유한요소해석결과 지반보강재 바로 밑에서 응력의 현저한 감소를 나타내었으며 보강재로 인한 응력분포를 확인할 수 있었다. 최종적으로 폐타이어의 대량처리를 위한 수단으로 지반보강을 위한 트레드매트의 사용이 제안되었다.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2008년도 추계 학술발표회
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• pp.1727-1734
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• 2008

After the final closure of sea dyke, seepage behaviour of embankment is highly changed by variation of water head different between tide wave and controlled water level at fresh lake. Especially, the seepage behaviour of bottom protection layer of final closure section is more important factor for structural and functional stability of sea dyke, because of the bottom protection layer of final closure section is penetrated sea side to fresh lake. Even though bottom protection layer was filled with dredged fine sand, it has a high permeability. In this paper, mainly described about the seepage velocity and borehole image of bottom protection layer filled with dredged sand after final closure. Various in-situ tests such as BIPS (Borehole Image Processing System) and ABI (Acoustic Borehole Imager) survey, wave velocity measuring, and color tracer survey were conducted to evaluate the seepage behavior of bottom protection layer. Based on the in-situ tests, the bottom protection layer of final closure section was almost filled with dredged sand which is slightly coarse grain sand and there have sea water flow by water head different between tide wave and controlled water level at fresh lake. Also, comply with tracer survey results, the sea water flow path was not exist or generated in the bottom protection layer. However, because of this result not only short term survey but also just one test borehole survey results, additional long term and other borehole tests are needed.