• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2004년도 추계학술대회 논문집 Vol.17
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• pp.256-259
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• 2004

[ $V_2O_5$ ] 나노선의 구조 분석을 위해 STM(Scanning Tunneling Microscopy)과 TEM(Transmission Electron Microscopy)을 이용하여 단일 $V_2O_5$ 나노선의 이미지를 얻었다. $V_2O_5$ 나노선은 상온에서 ammonium metavanadate$(NH_4VO_3)$와 양이온 교환수지$(DOWEX50{\times}8-100)$를 2차 증류수에 섞어 합성하였다. STM 시료는 3-APS(3-aminopropyltriethoxysilane)를 전 처리한 실리콘 기판에 $V_2O_5$ 나노선을 올려 만들었고, TEM 시료는 200 mesh/copper 그리드에 침전시켜 준비하였다. STM과 TEM의 결과로부터 $V_2O_5$ 나노선의 기하학적 단면이 $1.5nm{\times}10nm$에 거의 근사하는 것을 확인하였으며 두 이미지의 비교를 통해 $V_2O_5$ 나노선의 표면상태에 대해 논의하였다.

• 대한전자공학회논문지SD
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• 제41권6호
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• pp.91-98
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• 2004

본 논문은 일반적인 SPICE 시뮬레이터에서 사용 가능한 PCB 평판 해석 모형을 제안한다. 제안된 모형은 주파수에 따라 증가하는 두 가지 손실, 즉, 표피 손실과 유전 손실의 영향을 반영한다. 평판은 메시(mesh) 구조로 조각을 낸 후, 각각의 단위모형은 전송선 소자와 손실 모형을 이용하여 모형화된다. 손실 모형은 DC 손실을 위해서 하나의 저항이 요구되고, 표피 손실을 위해 직렬 RL ladder 회로, 유전 손실을 위해서 직렬 RC ladder 회로가 요구된다. 제안된 모형의 검증을 위해 주파수 가변저항을 사용한 SPICE ac 해석결과를 통해 비교하고, 전형적인 데스크탑 PC용 FR4 4층 PCB 적층 구조를 만들어 VNA 측정치와도 비교할 것이다. 이 모형은 RLGC 수동 소자들로만 구성되므로 주파수 영역 및 시간 영역에서도 다양한 선형/비선형 소자들과 결합하여 과도 해석이 가능하다.

• 대한기계학회논문집B
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• 제26권11호
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• pp.1622-1629
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• 2002

To enhance isothermal characteristics of glass-farming surface, a rectangular parallelepiped heat pipes was fabricated, tested, and analyzed. The working fluid was sodium and the wall material was stainless steel 304. The dimension of the heat pipe was 210 (L) $\times$ 140(W) $\times$ 92(H)mm. A lattice structure covered with screen mesh was inserted to promote return of working fluid. The bottom side of heat pipe was heated electrically and the top side was cooled by liquid circulation. The temperature distribution at the bottom surface was of major concern and was monitored to determine isothermal characteristics. A frozen start-up of rectangular parallelepiped liquid metal heat pipe was tested. The operating mode of the sodium heat pipe was affected by the temperature of cooling zone, input heat flux, and the operating temperature of heat pipe. The heat pipe operated in a normal fashion as long as the heat flux was over 5.78W/cm$^2$, and the inside wall temperature of condenser part was above 95$^{\circ}C$ The maximum temperature difference at the bottom surface was observed to be 32$^{\circ}C$ when the operating temperature of the heat pipe was operating normally around 50$0^{\circ}C$. The result showed that a sodium heat pipe was very effective in reducing significantly the temperature difference in the glass-forming surface.

• Journal of Mechanical Science and Technology
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• 제19권4호
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• pp.1044-1051
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• 2005

The isothermal characteristics of a rectangular parallelepiped sodium heat pipe were inves­tigated for high-temperature applications. The heat pipes was made of stainless steel of which the dimension was $140\;m\;(L)\;{\times}\;95m\;(W)\;{\times}\;46 m\;(H)$ and the thickness of the container was 5 mm. Both inner surfaces of evaporator and condenser were covered with screen meshes to help spread the liquid state working fluid. To provide additional path for the working fluid, a lattice structure covered with screen mesh wick was inserted in the heat pipe. The bottom surface of the heat pipe was heated by an electric heater and the top surface was cooled by circulating coolant. The concern in this study was to enhance the temperature uniformity at the bottom surface of the heat pipe while an uneven heat source up to 900 W was in contact. The temperature distribution over the bottom surface was monitored at more than twenty six locations. It was found that the operating performance of the sodium heat pipe was critically affected by the inner wall temperature of the condenser region where the working fluid may be changed to a solid phase unless the temperature was higher than its melting point. The maximum temperature difference across the bottom surface was observed to be $114^{\circ}C$ for 850 W thermal load and $100^{\circ}C$ coolant inlet temperature. The effects of fill charge ratio, coolant inlet temperature and operating temperature on thermal performance of heat pipe were analyzed and discussed.

• 한국추진공학회지
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• 제14권5호
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• pp.32-44
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• 2010

고체 추진기관 노즐의 2차원 열반응 및 삭마 해석 코드를 활용하여 노즐 부품의 숯 및 삭마현상을 연구하였다. Arrhenius 식을 이용한 내부 열분해 모델 상수는 TGA(열중량분석기) 실험으로 얻었다. 탄소와 $H_2O$, $CO_2$의 산화반응에 의한 화학적 삭마는 Zvyagin이 제안한 삭마모델 과 반응속도 상수를 이용하여 해석을 수행하였다. 삭마에 의한 경계조건 및 격자 이동은 상용해석 프로그램인 MSC-Marc-ATAS에서 적용되는 Rezoning-remeshing 기법을 사용하였다. 해석된 숯 및 삭마 두께는 연소시험 결과 값과 최대 20% 오차를 보였다. 향후 열방호 시스템의 성능을 모사하기 위하여 내부 온도 및 열유속을 실시간 측정하면 3차원 FEM 통합 열구조 해석에 적용될 것으로 기대된다.

• 한국정밀공학회지
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• 제14권8호
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• pp.29-39
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• 1997

The clamp, as the structure which is used for supporting the pipe in the atomic power plant, is produced with a certain degree of anticlastic curvature in the current manufacturing process. In this study, the structural analysis of the clamp and the pipe was performed using ABAQUS. And the finite element modelling for the analysis was made by an HyperMesh. The contact forces which are transferred between the clamp and the pipe for the external force are changed according to the binding force of bolts and keeps the clamp tightly and protects the slipping between the clamp and the pipe. The clamps with the anticlastic curvature and with the flat curvature are considered in order to invest the anticlastic effect. In this study, another case is suggested. The present case does not have the stiffness ring on the end of the clamp but the suggested case has the ring. For the present case, the results showed that the equivalent stress is higher in the anticlastic curvature case than in the flat curvature case and the equivalent stresses on the pipe are almost the same as the binding force increses. For the suggested case, the result showed that the equivalent stress in the anticlastic curvature case decreases until some binding force and increases as the binding forces increase and is lower in some range than in the flat curvature case. From this study, the clamp with the anticlastic curvature in the suggested method is better than the clamp with the flat curvature and the optimal binding force are given.

• Journal of Ecology and Environment
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• 제40권2호
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• pp.125-135
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• 2016

Background: The objectives of this study were to establish a swimming capability model for largemouth bass using the FishXing (version 3) program, and to determine the swimming speed and feasibility of fish passage through a waterway tunnel. This modeling aimed to replicate the waterway tunnel connecting the Andong and Imha Reservoirs in South Korea, where there is a concern that largemouth bass may be able to pass through this structure. As largemouth bass are considered an invasive species, this spread could have repercussions for the local environment. Results: Flow regime of water through the waterway tunnel was calculated via the simulation of waterway tunnel operation, and the capability of largemouth bass to pass through the waterway tunnel was then estimated. The swimming speed and distance of the largemouth bass had a positive linear function with total length and negative linear function with the flow rate of the waterway tunnel. The passing rate of small-size largemouth bass (10-30 cm) was 0%at a flow of $10m^3/s$ due to rapid exhaustion from prolonged upstream swimming through the long (1.952 km) waterway tunnel. Conclusions: The results of FishXing showed that the potential passing rate of large size largemouth bass (>40 cm) through the waterway tunnel was greater than 10%; however, the passage of largemouth bass was not possible because of the mesh size ($3.4{\times}6.0cm$) of the pre-screening structures at the entrance of the waterway tunnel. Overall, this study suggests that the spread of largemouth bass population in the Imha Reservoir through the waterway tunnel is most likely impossible.

• Smart Structures and Systems
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• 제13권4호
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• pp.587-614
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• 2014

In recent years the interest in online monitoring of lightweight structures with ultrasonic guided waves is steadily growing. Especially the aircraft industry is a driving force in the development of structural health monitoring (SHM) systems. In order to optimally design SHM systems powerful and efficient numerical simulation tools to predict the behaviour of ultrasonic elastic waves in thin-walled structures are required. It has been shown that in real industrial applications, such as airplane wings or fuselages, conventional linear and quadratic pure displacement finite elements commonly used to model ultrasonic elastic waves quickly reach their limits. The required mesh density, to obtain good quality solutions, results in enormous computational costs when solving the wave propagation problem in the time domain. To resolve this problem different possibilities are available. Analytical methods and higher order finite element method approaches (HO-FEM), like p-FEM, spectral elements, spectral analysis and isogeometric analysis, are among them. Although analytical approaches offer fast and accurate results, they are limited to rather simple geometries. On the other hand, the application of higher order finite element schemes is a computationally demanding task. The drawbacks of both methods can be circumvented if regions of complex geometry are modelled using a HO-FEM approach while the response of the remaining structure is computed utilizing an analytical approach. The objective of the paper is to present an efficient method to couple different HO-FEM schemes with an analytical description of an undisturbed region. Using this hybrid formulation the numerical effort can be drastically reduced. The functionality of the proposed scheme is demonstrated by studying the propagation of ultrasonic guided waves in plates, excited by a piezoelectric patch actuator. The actuator is modelled utilizing higher order coupled field finite elements, whereas the homogenous, isotropic plate is described analytically. The results of this "semi-analytical" approach highlight the opportunities to reduce the numerical effort if closed-form solutions are partially available.

• 한국생산제조학회지
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• 제19권6호
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• pp.883-888
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• 2010

This study have goal with conceptual design for Offshore Structures of high pressure control valve for localization. Ball valve for development accomplished with flow analysis based on provision of ANSI B16.34, ANSI B16.10, ANSI B16.25 In order to localize the Offshore Structures high pressure control valve. Numerical simulation using CFD (Computational Fluid Dynamic) in order to predict a mass flow rate and a flow coefficient form flow dynamic point of view. The working fluid assumed the glycerin (C3H8O3). The valve inlet and outlet setup a pressure boundary condition. The outlet pressure was fixed by atmospheric pressure and calculated until increasing 1bar to 10bar. CFD analysis used STAR-CCM+ which is commercial code and Governing equations were calculated by moving mesh which is rotated 90 degrees when ball valve operated opening and closing in 1 degree interval. The result shows change of mass flow rate according to opening and closing angle of valve, Flow decrease observed open valve that equal percentage flow paten which is general inclination of ball valve. Relation with flow and flow coefficient can not be proportional according to inlet pressure when compare with mass flow rate. Because flow coefficient have influence in flow and pressure difference. Namely, flow can be change even if it has same Cv value. The structural analysis used ANSYS which is a commercial code. Stress analysis result of internal pressure in valve showed lower than yield strength. This is expect to need more detail design and verification for stem and seat structure.

• 방송공학회논문지
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• 제25권5호
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• pp.655-664
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• 2020

자유시점 영상합성기술은 MPEG-I(Immersive) 표준에서 중요한 기술 중 하나이다. 현재 MPEG-I에서 개발하여 사용하는 RVS (Reference View Synthesizer) 프로그램은 다수의 시점의 컬러영상과 깊이영상을 바탕으로 임의시점의 영상을 생성하는 DIBR (Depth Information-Based Rendering) 프로그램이다. RVS는 기존의 DIBR이 갖는 깊이정보 전달의 문제를 컴퓨터 그래픽스의 메쉬 표면 방식으로 접근하여 이전 화소방식에 비하여 2.5dB 이상의 성능향상을 보이며 OpenGL을 사용하면 CPU에서 동작하는 코드보다 10배 이상의 속도를 보인다. 그러나 여전히 2개의 2k 해상도 입력 영상에서 0.75fps 정도의 비실시간 처리속도를 보인다. 본 논문에서는 현 RVS의 내부 구현을 분석하고 이를 바탕으로 1) OpenGL 버퍼와 텍스쳐 객체의 재사용 2) 파일 입출력과 OpenGL 실행의 병렬화 3) GPU 셰이더 프로그램과 버퍼 데이터 전송의 병렬화를 적용하였다. 그 결과 두 개의 2k 해상도 입력 영상의 처리속도를 34배 이상 가속하여 22-28fps의 실시간 성능을 확보하였다.