• 한국구조물진단유지관리공학회 논문집
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• 제21권4호
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• pp.47-52
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• 2017

PSC(Prestressed Concrete)는 전단면을 유효하게 사용할 수 있으므로 교량 및 암거와 같은 구조물에 가장 많이 사용되고 있다. 그러나 내부의 텐던은 항상 높은 인장하중을 받는 상태에 노출되므로 부식환경에서 더욱 주의를 해야한다. 본 연구는 동일한 부식조건에서 프리스트레싱 하중에 따라 변화하는 부식전류 및 내력저하에 대한 연구이다. 이를 위해 초기 프리스트레싱 하중의 0.0%, 20.0%, 40.0%수준으로 가력한 뒤, ICM(Impressed Current Method)를 이용하여 촉진부식실험을 수행하였다. 초기 하중이 증가할수록 부식전류와 부식량은 증가하였으며 최대하중의 감소가 선형적으로 발생하였다. 초기하중이 20%에서 40%로 증가할 때, 부식전류량은 124.4%와 168.0% 수준으로 증가하였으며, 최종 파괴시의 하중은 87.8% 및 78.4%수준으로 감소하였다. 동일한 전압인가 시 부식속도와 내력저하는 인가한 초기 프리스트레싱 하중에 비례함을 알 수 있다.

• 한국해양공학회지
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• 제23권1호
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• pp.104-108
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• 2009

As the demands of ocean resource development increase, many offshore structures are required. To cope with the active ocean developments, many types of construction methods have been applied for offshore facilities, including oil, gas and harbors. One of the challenges is to transport and install the heave bridge caisson. Several construction methods are well understood. However, for the sake of safety and reliability, the F/D installation method can be utilized. While the caisson is carried by an F/D, the mooring force of the tug boat and the structure stability from exiting motions in the dock should be checked against external loadings and sea conditions. The external loads can be classified with wind force, current force, and wave force. In the stability analysis, transportation velocity and draft of F/D are important factors. The dynamic stability and hook load for crane barge installation for the same caisson are also studied. Considering external loads and dominant factors, the stability of caisson during transportation has been investigated.

• 한국지반공학회논문집
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• 제27권6호
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• pp.17-26
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• 2011

그라운드 앵커공법은 현재 우리나라에서 가장 일반적으로 사용되는 사면보강공법들 중 하나이다. 그러므로 앵커로 보강된 사면의 안정성을 장기간 확인하기 위해서는 그라운드 앵커의 긴장력을 측정하는 것이 매우 중요하다. 그러나 전통적인 로드 셀 방식의 측정기술을 제외하고는 특별한 기술이 개발된 것이 없다. 본 논문에서는 지반구조물의 보강을 위해 널리 사용되는 그라운드 앵커의 단기 및 장기 장력을 측정하기 위해 기존에 현장에서 주로 사용되는 스트레인게이지 또는 V/W 타입 로드 셀을 대체할 수 있는 새로운 방법에 대하여 기술하였다. 사용된 센서는 스트레인게이지 또는 V/W타입의 센서에 비해 크기가 작고 내구성이 우수하며 전자기파에 의한 노이즈 발생이 없는 광섬유 브래그격자(Fiber Bragg Grating ; FBG)센서이다. FBG 센서를 내장한 7연 강연선을 이용하여 원하는 위치에서 변형률 감지가 가능한 인장형 앵커를 제작하고 앵커 정착장을 연암과 화강풍화토 지반조건에 각각 2세트(set)씩 시공하여 현장인발실험을 수행하였다. 재하-제하단계를 포함하는 전 하중단계에서 FBG센서로 측정된 변형률로부터 장력 모니터링을 수행하였고 기존 로드 셀로 측정된 결과와 비교하였다. 현장 인발실험 결과, 제안된 광섬유 센서를 이용한 그라운드 앵커의 시공 중 긴장력 측정결과 실내 UTM 결과와 달리 약간의 차이가 있으나 실용적인 차원에서는 충분히 활용 가능한 것으로 확인되었다.

• 한국안전학회지
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• 제34권5호
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• pp.72-77
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• 2019

Vinyl house consists of main rafter, lateral member, clamps and polyethylene film. Many vinyl houses are used to grow fruits, flowers and vegetables in the countryside. Due to climate change, vinyl houses are often destroyed by strong winds or typhoons in summer. Many farmers suffer great economic damage from the collapse of vinyl houses. So it is very important to build a safe vinyl house and find a method to withstand this heavy wind load. In this study, a structural analysis was performed on four types of vinyl houses(10-single-4, 10-single-6, 10-single-7, 10-single-10). In addition, axial force and flexural moment are obtained from the structural analysis of four types of vinyl house. For these four types of vinyl house, structural safety was reviewed by obtaining the combined stress ratio by the strength design method. This structural review showed that the specifications for the vinyl house proposed in the design are not safe. Especially, the result of structural analysis for four types of vinyl house showed that the vinyl house structure constructed as a standard was a very dangerous structure. Therefore, it is necessary to devise diverse methods in order to make vinyl houses structurally safe for heavy wind load in the future. Also a variety of manual development is needed to prevent the collapse of vinyl houses at heavy wind load.

• Structural Engineering and Mechanics
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• 제30권6호
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• pp.763-785
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• 2008

In this study, a flexibility-based finite element method considering geometric and material nonlinearities is developed for analyzing steel-concrete frame structures. The stability functions obtained from the exact buckling solution of the beam-column subjected to end moments are used to accurately capture the second-order effects. The proposed method uses the force interpolation functions, including a moment magnification due to the axial force and lateral displacement. Thus, only one element per a physical member can account for the interaction between the bending moment and the axial force in a rational way. The proposed method applies the Newton method based on the load control and uses the secant stiffness method, which is computationally both efficient and stable. According to the evaluation result of this study, the proposed method consistently well predicts the nonlinear inelastic behavior of steel-concrete composite frames and gives good efficiency.

• 한국해양공학회지
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• 제35권5호
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• pp.347-359
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• 2021

This study aims to evaluate the dynamic responses of the jacket-type offshore wind turbine using FAST software (Fatigue, Aerodynamics, Structures, and Turbulence). A systematic series of simulation cases of a 5 MW jacket-type offshore wind turbine, including wind-only, wave-only, wind & wave load cases are conducted. The dynamic responses of the wind turbine structure are obtained, including the structure displacement, rotor speed, thrust force, nacelle acceleration, bending moment at the tower bottom, and shear force on the jacket leg. The calculated time-domain results are transformed to frequency domain results using FFT and the environmental load with more impact on each dynamic response is identified. It is confirmed that the dynamic displacements of the wind turbine are dominant in the wave frequency under the incident wave alone condition, and the rotor thrust, nacelle acceleration, and bending moment at the bottom of the tower exhibit high responses in the natural frequency band of the wind turbine. In the wind only condition, all responses except the vertical displacement of the wind turbine are dominant at three times the rotor rotation frequency (considering the number of blades) generated by the wind. In a combined external force with wind and waves, it was observed that the horizontal displacement is dominant by the wind load. Additionally, the bending moment on the tower base is highly affected by the wind. The shear force of the jacket leg is basically influenced by the wave loads, but it can be affected by both the wind and wave loads especially under the turbulent wind and irregular wave conditions.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2010년도 추계 학술발표회
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• pp.964-968
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• 2010

Ground anchor, commonly referred to as tiebacks or tie-down, is essentially steel elements secured in the ground by cement grout. They are used to provide either lateral or vertical support for various engineered structures, and are effective in all types of soil and rock. However, ground anchor can not be used in soft clay because anchor resistance would not be guaranteed. In this paper, conceptual introduction of the Smart Anchor is presented. The Smart Anchor is a kind of friction type anchor, the load is diffused and applied to the various parts of the distributed bond length, having less impact on the grout strength, and being able to secure necessary anchoring force in relatively soft grounds. This study shows a numerical study of predicting the load transfer of The Smart Anchor in soft clay. A beam-column analysis was performed by a elastic-plastic P-y curves in soft clay.

• 한국농촌건축학회논문집
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• 제23권3호
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• pp.1-8
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• 2021

Rural multi-purpose buildings needs to ensure their safety against various disasters. Therefore, a pile foundation, which is a foundation type that can transmit the load of the structure to the bedrock layer, has been designed. The pile foundation method is largely divided into driving piles method and pre-bored pile method. Recently, in order to respond to the Noise and Vibration Control Act and related environmental complaints, construction of pile foundation adopts pre-bored pile method. The bearing capacity of the pre-bored pile method is calculated through a load test in situ. However, a disadvantage stems in that it is difficult to measure the ultimate bearing capacity due to field conditions. Therefore, in this study, the skin frictional force of pre-bored pile was measured through a model test in laboratory for each pile filling material. In result, the pile filling material with using circulating resources shows superior skin frictional force than ordinary portland cement. This study also judged that the result can be applied in place of ordinary Portland cement in the field.

• 대한토목학회논문집
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• 제33권4호
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• pp.1261-1270
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• 2013

현행 국내 1등교 활하중 설계기준은 DB-24하중과 DL-24하중을 적용하고 있다. 특히 45m 이상의 장경간 교량에서는 DB-24하중보다 DL-24 하중에 의한 전단력, 모멘트가 지배적인 것으로 나타나 대부분 DL-24하중을 적용하여 설계하고 있다. 그러나 실제 교량에서트럭하중은 한 점에 머무르며 작용하지 않고 교량 위를 종방향으로 이동하며 작용하므로, 이러한 이동 효과를 고려하여 이동트럭하중(ML-24)을 정의하여 DL-24하중과 비교한 결과, DL-24하중은 50m 경간을 기준으로 이동트럭 하중(ML-24)에 의한 전단력을 전 구간에서 만족시키지 못하였고, 모멘트의 경우도 일부구간에서 만족하지 못하는 것으로 나타났다. 이에 본 논문에서는 경간 50m를 기준으로 현재 DL-24하중을 구성하는 하중 인자를 조정하여 새로운 활하중 모델인 RL-24하중을 제시하였으며, 이를 경간 45~60m 단순교에 적용시켜 검토한 결과, 실제 작용 하중과 유사한 ML-24하중에 의해 교량에 작용하는 모멘트와 전단력을 모두 만족하였으며, 특히 문제점으로 발견되었던 부재 중앙과 부재 단부에서의 전단력 비율이 일정하게 유지되는 결과를 얻었다. 또한 국내의 활하중 모델들과의 비교를 통하여 RL-24하중 조정안의 적절성과 그 적용성을 검토하였다. 본 연구에서는 최근 연구개발과 실용화가 활발한 60m 경간급의 1등급 교량에 대하여 실제 트럭의 이동 효과를 고려하여 모멘트와 전단력에 대하여 합리적인 설계가 이루어질 수 있도록 새로운 설계기준을 제시하였다.

• 환경영향평가
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• 제7권1호
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• pp.93-107
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• 1998

In this study, the indicator is established by the human activities which cause the load of the environment, the effect of the human activities on the environment, the state of the natural environment in the city, and the effort on improving this state. And this indicator is based on the DPSR(Driving Force, Pressure, State, Response)framework which combines the PSR framework of GECD with the DSR framework of UNCSD. Coexistent indicators between men and nature among the established environmental indicators apply to the case cities such as Suwon, Songnam, Bucheon, Ansan and the results are analyzed in detail. The environmental indicators established in this study will be the concrete and persuasive means which can evaluate the possibility of the sustainability that is the paradigm of the new city development when the environmental quality or state of the existing cities is evaluated.