• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2008년도 춘계 학술발표회 초청강연 및 논문집
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• pp.1166-1171
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• 2008

Despite of the increasing number of the application of drilled shaft piles in construction site, most studies on pile capacity have been focused on the side shear resistance. But it is common that the drilled shaft is socketed on the rock so as to use its bearing resistance. The prediction of the end movement and characteristics of the bearing capacity of the pile is great important as well. Therefore, a series of scaled model tests were carried out in order to study the characteristics of the bearing capacity on rock mass. The material of the test block was cement mortar which was mixed with sand, cement and water, and the size of a test block size was $240{\times}240{\times}240mm$. The axial load was applied by a miniaturized pile of 45mm in diameter and flat jacks and steel plate were used for confinement to simulate the real underground loading conditions. The relation of load-displacement was measured in various different conditions of rock mass such as strength, discontinuity of the rock mass and in-situ stress, so q-w curves of the end of the pile were presented for each condition.

• Journal of Mechanical Science and Technology
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• 제14권2호
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• pp.197-206
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• 2000

A boundary integral equation method in the shape design sensitivity analysis is developed for the elasticity problems with axisymmetric non-homogeneous bodies. Functionals involving displacements and tractions at the zonal interface are considered. Sensitivity formula in terms of the interface shape variation is then derived by taking derivative of the boundary integral identity. Adjoint problem is defined such that displacement and traction discontinuity is imposed at the interface. Analytic example for a compound cylinder is taken to show the validity of the derived sensitivity formula. In the numerical implementation, solutions at the interface for the primal and adjoint system are used for the sensitivity. While the BEM is a natural tool for the solution, more generalization should be made since it should handle the jump conditions at the interface. Accuracy of the sensitivity is evaluated numerically by the same compound cylinder problem. The endosseous implant-bone interface problem is considered next as a practical application, in which the stress value is of great importance for successful osseointegration at the interface. As a preliminary step, a simple model with tapered cylinder is considered in this paper. Numerical accuracy is shown to be excellent which promises that the method can be used as an efficient and reliable tool in the optimization procedure for the implant design. Though only the axisymmetric problem is considered here, the method can be applied to general elasticity problems having interface.

• 자원환경지질
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• 제34권6호
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• pp.601-615
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• 2001

본 연구지역인 충북 보은군 보은읍 일대는 옥천변성대에 속하며, 도로공사구간 중 1:0.:리 구배로 절취한 암반사 면내의 일부구간에서 평면파괴가 발생하였다. 이 구간은 파괴면과 동일한 방향성을 갖는 불연속면에 의해 추가붕괴가 예상되는 등 불안정한 상태이다. 따라서, 본 사면에 대해 SMR, 평사투영법, 한계평형법으로 안전성을 해석하였다. 그러나, 이러한 방법으로 해석할 수 없는 절취에 따른 암반사면의 응력재분배 및 비선형적인 변위거동에 대해서는 UDEC 을 이용하여 수치해석하고, 보강공법을 적용하여 안정성을 해석해 보았다.

• Steel and Composite Structures
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• 제25권2호
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• pp.127-139
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• 2017

In this paper, an exact analytical solution for simply supported sandwich plate which considers the permeation effect of adhesives is presented. The permeation layer is described as functionally graded material (FGM), the elastic modulus of which is assumed to be graded along the thickness following the exponential law. Based on the exact three-dimensional (3-D) elasticity theory, the solution of stresses and displacements for each layer is derived. By means of the recursive matrix method, the solution can be efficiently obtained for plates with many layers. The present solution obtained can be used as a benchmark to access other simplified solutions. The comparison study indicates that the finite element (FE) solution is close to the present one when the FGM layer in the FE model is divided into a series of homogeneous layers. However, the present method is more efficient than the FE method, with which the mesh division and computation are time-consuming. Moreover, the solution based on Kirchhoff-Love plate theory is greatly different from the present solution for thick plates. The influence of the thickness of the permeation layer on the stress and displacement fields of the sandwich plate is discussed in detail. It is indicated that the permeation layer can effectively relieve the discontinuity stress at the interface.

• 지질공학
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• 제26권3호
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• pp.383-392
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• 2016

본 연구는 무등산국립공원 주상절리대 중 입석대 주상절리대를 대상으로 물리역학적 특성을 살펴보았다. 이를 위하여 무등산응회암에 대한 물리적 및 역학적 성질과 불연속면 특성, 주상절리대 주변의 진동 및 국지 기상 측정, 그리고 주상절리대 자체하중에 의한 지반변형을 살펴보았다. 물리적 성질의 경우 평균 공극률은 0.65%, 평균 비중은 2.69, 평균 밀도는 2.68 g/cm³, 평균 종파속도는 2411 m/s로 나타났다. 역학적 성질의 경우 평균 일축압축강도는 323MPa, 평균 탄성계수는 81 GPa, 그리고 평균 포아송비는 0.25로 나타났다. 절리면 전단시험의 경우 평균 수직강성은 3.15 GPa/m, 평균 전단강성은 0.38 GPa/m, 평균 점착력은 0.50 MPa, 그리고 평균 내부마찰각은 35°로 나타났다. 절리면 거칠기를 측정한 결과 거칠기 상수(JRC) 표준도에 따르면 4~6 범위, JRC 차트에 따르면 1~1.5 범위가 우세하게 나타나 약간 거침 상태를 보였다. 또한 주상절리 표면에 대한 실버슈미트해머 반발경도 Q값을 측정한 결과 평균 57(약 90MPa)로 나타났으며, 이는 원래 일축압축강도의 약 28% 수준이다. 입석대 주상절리대 주변의 진동을 측정한 결과 최대 진동값은 0.57 PPV (mm/s)~2.35 PPV (mm/s) 범위를 보여 주상절리대 주변의 탐방객들에 의해 발생되는 진동은 미약한 것으로 나타났다. 주상절리의 표면 및 부근에서 온도, 습도, 풍속 등 국지기상을 측정한 결과 측정 당일의 날씨 영향을 크게 받은 것으로 나타났다. 입석대 주상절리대 자체하중에 의한 지반변형 상태를 수치해석한 결과, 오른쪽 지반에서 최대 변위는 지반거리가 약 2.5m일 때 최대값을 보이며, 6m까지 급격하게 감소하다가 그 이후부터는 미미하게 증가했다. 중간 지반에서 최대 변위는 지반거리가 0~2 m에서 최대값을 보이며, 3 m에서 급격하게 감소하다가 12m에서 미미하게 증가하는 경향을 나타냈다. 그리고 왼쪽 지반에서 최대 변위는 지반거리가 5~6 m일 때 최대값을 보이며, 6~10 m까지 급격하게 감소하다가 그 이후부터는 미미하게 증가하는 것으로 나타났다.

• 한국강구조학회 논문집
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• 제25권1호
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• pp.47-59
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• 2013

본 연구는 신형상 U형 합성보의 1차 휨실험에 연이은 2차 연구로 U형 합성보와 기둥 접합부의 내진성능시험이다. 실험 변수는 기둥의 종류와 보 춤, 보 상부 플레이트 연속유무, 보 단부 철근 수 등으로 3개의 실험체를 제작하였다. 기둥의 종류는 철골 철근콘크리트 기둥과 CFT 형상의 ACT기둥이며, 보 춤은 300, 500(mm)이다. 접합부상세는 일반적으로 많이 적용하고 있는 짧은 브라켓을 활용한 볼트 접합부이다. 실험결과 변형능력은 2~4(%)의 층간변위각을 확보하였으며, 최대모멘트는 부휨모멘트의 경우 공칭모멘트 이상의 내력이 나타났다.

• 한국농공학회지
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• 제38권1호
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• pp.116-127
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• 1996

This paper dealt with FEM analysis of foundation improved with pack drain. The theory on pack drain was scrutinized and observed values in the field were compared with numerical results. Work site of Kwangyang container pier was selected as a ease study in which measurement of settlement and pore water pressure was accurately carried out. Biot's consolidation equation was selected as governing One, coupled with modified Camclay model as constitutive one. Christian and Boehmer's numerical technique was adopted. Behavior of foundation with pack drain is not simple but very complicated. Discontinuity resulted from rigidity difference between adjacent materials, smear effect and complicated boundary conditions should be considered in the behavior analysis of foundation behavior. The results of numerical analysis were influenced by smear zone. In relevant to this effect, finite element analysis was carried out using the reduced horizontal coefficient of permeability in the smear zone; The numerical results were compared with observed values in surface settlement. including pore water pressure. However only lateral di5plaoement by numerical ana1Ysis was shown since its measurement was not performed in the field. The predication of settlement to be developed later can be effectively employed for the obtimization of construction. The predication of residual settlement using the data measured in the field was made by Hoshino, Asaoka and hyperbolic method. Among them, the hyperbolic method proved best one. Settlements accorded well between numsrical and observed values while pore pressure showed a slight difference. Lateral displacement showed largest values at constant distance from ground surface. The validation of foundation analysis improved with pack drain by computer program employed in this study selecting modified Cam-clay model was satisfactorily secured.

• 터널과지하공간
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• 제21권2호
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• pp.138-144
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• 2011

광산이 폐광을 하는 경우 배수시스템을 정지함으로 인해 갱도는 물로 포화된다. 갱도가 포화되었을 때 갱도 주변의 암석은 완전히 포화되고 갱도 주변 암반에는 수압이 작용한다. 암석의 일축압축강도는 함수율에 따라 달라지며 함수율이 증가함에 따라 감소한다. 수압은 암석 내 균열이나 암반 내 불연속면의 확장을 유발하게 된다. 갱도 내 포화된 수압이 지보압을 발휘할 수도 있지만 지하수에 의해 발생한 암반 물성의 저하는 갱도의 안정성을 감소시킬 것이다. 본 연구에서는 수압에 의해 발생한 갱도 주변 암반의 물성 저하가 갱도의 안정성에 미치는 영향을 평가하기 위하여 2차원 불연속해석과 3차원 연속해석을 실시하였다. 수치해석 결과 수압에 의해 유발된 갱도 주변 암반의 물성 저하는 갱도 주변 암반의 변위 증가에 영향을 미치고, 2차원 해석 결과는 3차원 해석 결과 보다 큰 변위를 나타냈다.

• 국제초고층학회논문집
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• 제3권1호
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• pp.21-33
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• 2014

The tied braced frame (TBF) system was developed to achieve uniform seismic inelastic demand along the height of multi-storey eccentrically braced steel frames. A modular tied braced frame (M-TBF) configuration has been recently proposed to reach the same objective while reducing the large axial force demand imposed on the vertical tie members connecting the link beams together in TBFs. M-TBFs may however experience variations in storey drifts at levels where the ties have been removed to form the modules. In this paper, the possibility of reducing the discontinuity in displacement response of a 16-storey M-TBF structure by introducing energy dissipating (ED) devices between the modules is examined. Two M-TBF configurations are investigated: an M-TBF with two 8-storey modules and an M-TBF with four 4-storey modules. Three types of ED devices are studied: friction dampers (FD), buckling restrained bracing (BRB) members and self-centering energy dissipative (SCED) members. The ED devices were sized such that no additional force demand was imposed on the discontinuous tie members. Nonlinear response history analysis showed that all three ED systems can be used to reduce discontinuities in storey drifts of M-TBFs. The BRB members experienced the smallest peak deformations whereas minimum residual deformations were obtained with the SCED devices.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2008년도 춘계 학술발표회 초청강연 및 논문집
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• pp.833-841
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• 2008

Recently, the upheaval generation in the road which is under service had been reported. Due to the upheaval generation, total 4 lanes were forced to curtail to 3 lanes, and traffic was delayed. In normal situation of cut-slopes in korea, that condition is hard to detect since most cut-slopes contain discontinuous material, that is rock. Common collapses in rock-slopes is wedge failure, plane failure and toppling failure which is all individual mechanism of discontinuous rock mass. In contrast, such upheaval in the road in front of cut-slope can be generated only when circular movement is triggered within the cut-slope. In this sense, rock-slopes barely show any kind of movement in the road locates at the front of them. Numerical analysis is general method in simulation of slope displacement and evaluation of safety. However, numerical analysis programs which are related with rock-slopes are not able to simulate such upheaval movement because that programs are based on discontinuous modeling mechanism. In addition, although numerical analysis programs which are based on FEM/FDM and thus utilize continuous modeling mechanism are able to simulate circular movement and upheaval situation, they have weakness in reflecting discontinuities of rock-slope itself. In this study, detailed in-site investigation and numerical analysis based on in-site condition were performed in order to expect upheaval movement in the road. In this procedure, the FLAC program which uses continuous modeling method was utilized, and new approach reflecting discontinuity developed toward the road with a ubiquitous joint model was tried to derive reliable analysis result.