• 한국소음진동공학회:학술대회논문집
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• 한국소음진동공학회 2004년도 추계학술대회논문집
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• pp.695-698
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• 2004

STSAT RWA (Reaction Wheel Assembly) micro-vibration is measured using KISTLER dynamic plate that can provide the time signals of three orthogonal forces and torques simultaneously up to 400Hz. In the post-processing, measured data are evaluated with respect to the wheel spin rate in both time and frequency domains, and the static/dynamic unbalances are evaluated from the extracted first harmonic component. Also the friction torque profile at each wheel speed is estimated from the measured data. Several higher order harmonic components are observed, that comes from its rotor shape as well as the wheel bearing characteristics. One of the most peculiar characteristics of this wheel is that the dynamic properties of two radial unbalance components are much different from each other as the RWA mounting configuration on a spacecraft is different from conventional RWA mounting configuration. Rocking mode is not appeared below 400Hz for all operating speed because the wheel size is very small. The post-processed results will be used for jitter analysis of STSAT due to RWA micro-vibration.

• 천문학회보
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• 제44권2호
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• pp.39.1-39.1
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• 2019

We trace the cosmological origin of satellites around isolated dwarf galaxies using a very high resolution (12 pc/h) cosmological hydrodynamic zoom simulation. To realistically describe the formation and evolution of small-mass stellar satellites, our model includes a full baryonic physics treatment. We find that the mini-halos form objects resembling dwarf galaxies. The majority of their star forming gas is accreted after reionization, thus the survival of a mini-halo's gas to reionization is not an important factor. Instead, the key factor seems to be the ability for a mini-halo to cool its recently accreted gas, which is more efficient in more massive halos. Although the host galaxy is only a dwarf galaxy itself, we find that ram pressure is an efficient means by which accreted mini-halos lose their gas content, both by interacting with hot halo gas but also in direct collisions with the gas disk of the host. The satellites are also disrupted by the tidal forces near the center of the host galaxy. Compared to the disrupted satellites, surviving satellites are relatively more massive, but tend to infall later into the host galaxy, thus reducing the time they are subjected to destructive environmental mechanisms and dynamical friction.

• Steel and Composite Structures
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• 제45권4호
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• pp.501-511
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• 2022

In this study, a two-dimensional model of the contact problem has been examined using the finite element method (FEM) based software ANSYS and based on the multilayer perceptron (MLP), an artificial neural network (ANN). For this purpose, a functionally graded (FG) half-infinite layer (HIL) with a crack pressed by means of two rigid blocks has been solved using FEM. Mass forces and friction are neglected in the solution. Since the problem is analyzed for the plane state, the thickness along the z-axis direction is taken as a unit. To check the accuracy of the contact problem model the results are compared with a study in the literature. In addition, ANSYS and MLP results are compared using Root Mean Square Error (RMSE) and coefficient of determination (R2), and good agreement is found. Numerical solutions are made by considering different values of external load, the width of blocks, crack depth, and material properties. The stresses on the contact surfaces between the blocks and the FG HIL are examined for these values, and the results are presented. Consequently, it is concluded that the considered non-dimensional quantities have a noteworthy influence on the contact stress distributions, and also, FEM and ANN can be efficient alternative methods to time-consuming analytical solutions if used correctly.

• Geomechanics and Engineering
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• 제35권2호
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• pp.209-219
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• 2023

This paper presents numerical investigations into the particle crushing effect on the shear properties of gravel under direct shear condition. A novel particle crushing model was developed based on the octahedral shear stress criterion and fragment replacement method. A series of direct shear tests were carried out on unbreakable particles and breakable particles with different strengths. The evolutions of the particle crushing, shear strength, volumetric strain behavior, and contact force fabric during shearing were analyzed. It was observed that the number of crushed particles increased with the increase of the shear displacement and axial pressure and decreased with the particle strength increasing. Moreover, the shear strength and volume dilatancy were obviously decreased with particle crushing. The shear displacement of particles starting to crush was close to that corresponding to the peak shear stress got. Besides, the shear-hardening behavior was obviously affected by the number of crushed particles. A microanalysis showed that due to particle crushing, the contact forces and anisotropy decreased. The mechanism of the particle crushing effect on the shear strength was further clarified in terms of the particle friction and interlock.

• Tribology and Lubricants
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• 제39권6호
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• pp.273-277
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• 2023

This paper presents a molecular dynamics simulation-based numerical investigation of the influence of surface energy on water lubrication. Models composed of a crystalline substrate, half cylindrical tip, and cluster of water molecules are prepared for a tribological-characteristic evaluation. To determine the effect of surface energy on lubrication, the surface energy between the substrate and water molecules as well as that between the tip and water molecules are controlled by changing the interatomic potential parameters. Simulations are conducted to investigate the indentation and sliding processes. Three different normal forces are applied to the system by controlling the indentation depth to examine the influence of normal force on the lubrication of the system. The simulation results reveal that the solid surface's surface energy and normal force significantly affect the behavior of the water molecules and lubrication characteristics. The lubrication characteristics of the water molecules deteriorate with the increasing magnitude of the normal force. At a low surface energy, the water molecules are readily squeezed out of the interface under a load, thus increasing the frictional force. Contrarily, a moderate surface energy prevents expulsion of the water molecules due to squeezing, resulting in a low frictional force. At a high surface energy, although squeezing of the water molecules is restricted, similar to the case of moderate surface energy, dragging occurs at the soil surface-water molecule interface, and the frictional force increases.

• Steel and Composite Structures
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• 제50권1호
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• pp.77-87
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• 2024

In this study, the two-dimensional crack problem was investigated by using the finite element method (FEM)-based ANSYS package program and the artificial neural network (ANN)-based multilayer perceptron (MLP) method. For this purpose, a half-infinite functionally graded (FG) layer with a crack pressed through two rigid blocks was analyzed using FEM and ANN. Mass forces and friction were neglected in the solution. To control the validity of the crack problem model exercised, the acquired results were compared with a study in the literature. In addition, FEM and ANN results were checked using Root Mean Square Error (RMSE) and coefficient of determination (R²), and a well agreement was found. Numerical solutions were made considering different geometric parameters and material properties. The stress intensity factor (SIF) was examined for these values, and the results were presented. Consequently, it is concluded that the considered non-dimensional quantities have a noteworthy influence on the SIF. Also FEM and ANN can be logical alternative methods to time-consuming analytical solutions if used correctly.

• 한국재료학회지
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• 제17권1호
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• pp.31-36
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• 2007

Nanoimprint lithography (NIL) is a new lithographic method that offers a sub-10nm feature size, high throughput, and low cost. One of the most serious problems of NIL is the stiction between mold and resist. The antistiction layer coating is very effective to prevent this stiction and ensure the successful NIL results. In this paper, an antistiction layer was deposited by VSAM (vapor self assembly monolayer) method on silicon samples with FOTS (perfluoroctyltrichlorosilane) as a precursor for making an antistiction layer. A specially designed LPCVD (low pressure chemical vapor deposition) was used for this experiment. All experiments were achieved after removing the humidity. First, the evaporation test of FOTS was performed for checking the evaporation temperature at low pressure. FOTS was evaporated at 5 Tow and $110^{\circ}C$. In order to evaluate the temperature effect on antistiction layer, chamber temperature was changed from 50 to $170^{\circ}C$ with 0.1ml of FOTS for 1 minute. Good hydrophobicity of all samples was shown at about $110^{\circ}$ of contact angle and under $20^{\circ}$ of hysteresis. The surface energies of all samples calculated by Lewis acid/base theory was shown to be about 15mN/m. The deposited thicknesses of all samples measured by ellipsometry were almost 1nm that was similar value of the calculated molecular length. The surface roughness of all samples was not changed after deposition but the friction force showed relatively high values and deviations deposited at under $110^{\circ}$. Also the white circles were founded in LFM images under $110^{\circ}$. High friction forces were guessed based on this irregular deposition. The optimized VSAM process for FOTS was achieved at $170^{\circ}C$, 5 Torr for 1 hour. The hot embossing process with 4 inch Si mold was successfully achieved after VSAM deposition.

• 한국안광학회지
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• 제13권1호
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• pp.5-13
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• 2008

목적: 각막 부착 콘택트렌즈에는 어떠한 힘이 작용하며 또한 이 힘에 따른 렌즈의 운동을 알아보고자 본 해설을 작성하였다. 방법: 렌즈 아래 눈물층에는 모세관작용에 따른 힘이 발생하고 렌즈 회전에 따른 눈물층 간격변화에 기인하는 복원력이 발생한다. 눈깜빡임에 따라 콘택트렌즈는 눈꺼풀-렌즈 사이 마찰력과 눈꺼풀의 가속도에 의한 힘, 눈물층의 복원력 및 점성저항력에 의해 운동(움직임)이 결정된다. 눈깜빡임 도중/후 매순간 렌즈의 위치를 예측할 수 있는 미분방정식과 그 수치계산 프로그램 모델을 수립하였다. 이 컴퓨터 모델을 사용하여 눈깜빡임 주기, 렌즈의 BC, 눈꺼풀 압력 변화에 따른 매 순간 렌즈 위치를 예측할 수 있었다. 결과: 눈깜빡임 주기가 길수록, 눈꺼풀 압력이 클수록 눈꺼풀에 의한 마찰력 영향이 커져 렌즈 움직임이 커지며 BC가 증가할수록 눈물층 간격이 증가하여 점성저항력이 감소하며 따라서 렌즈 움직임이 커지는 것을 알 수 있었다. 눈깜빡임 후 렌즈는 눈물층 간격 변화에 따른 복원력과 눈물층의 점성저항력에 의해 진폭이 감소하는 진동을 하면서 평형위치로 복귀하게 된다. 이 경우 BC가 증가할수록 저항력이 감소하여 평형 위치로의 접근이 빨라진다. 결론: 콘택트렌즈의 움직임은 렌즈-각막 사이 눈물층의 물성 및 형상과 아울러 눈깜빡임에 의해 지배된다.

• 한국해안·해양공학회논문집
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• 제24권6호
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• pp.390-399
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• 2012

본 연구에서는 지속적인 담수유입이 존재하고 S자의 수로형태를 가진 경기만 석모수로에서 소조기 홍수시 13시간 동안 7개의 정선에서 단면유속 및 염분을 관측하였다. 각 단면의 최강 창조와 낙조시의 유속 크기와 방향을 파악하였고, 단면 내의 유속 분포 및 염분구조를 분석하였다. 또한 정선 별로 나타나는 횡 방향 흐름이 어떠한 운동량에 의해 지배되는지 파악하고자 횡 방향의 운동량 분석을 수행하였다. 운동량 분석에서는 석모수로의 S자 형태의 영향을 고려하기 위해서 원심력을 고려하였다. 분석 결과 소조기 홍수시 석모수로는 횡 방향 압력 경도력과 수직적 마찰력이 가장 우세하기 때문에 염분 분포와 성층에 의한 흐름이 주로 나타났다. 수로의 특성은 크게 북단과 남단으로 나누어 볼 수 있는데 상대적으로 조간대가 넓게 형성되고 담수의 영향이 큰 석모수로 북단의 4개 정선중에서 수심이 깊은 정선에서는 횡 방향 압력 경도력이 우세하지만 수직적으로 크기가 다르며, 수심이 낮은 정선에서는 수직 마찰항이 우세하였다. 이와는 달리 수심이 깊고 수로의 굴곡이 심한 석모수로 남단에서는 낙조시 지형학적 원인과 담수의 영향에 따라 이류 가속항과 원심력이 강해지게 된다. 이와 같은 결과를 종합할 때, 석모수로는 위치와 수심, 수로의 굴곡 등에 따라 운동량 분포가 각기 달리 나타나며 이러한 영향으로 인해 횡 방향 흐름 특성이 발생했음을 알 수 있다.

• 대한치과교정학회지
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• 제35권2호
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• pp.116-126
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• 2005

본 연구는 고정성 장치를 이용한 교정 치료에서 브라켓과 교정용 호선 사이의 활주 이동 동안 발생하는 마찰력에 디자인과 재질이 다른 각각의 브라켓과 여러 종류의 호선 다양한 브라켓-호선 각도 등이 어떤 영향을 미치는가를 알아보기 위하여 4종의 브라켓 (stainless steel twin 브라켓인 Gemini, 좁은 근원심 폭경과 single bracket의 디자인이 포함된 Mini Uni-Twin. metal-reinforced 세라믹 브라켓인 Clarity. 세라믹 브라켓인 Transcend)을 사용하고, 3종의 교정용 호선(0.015"$0.010\times0.022"$ stainless steel 호선, 0.010" Nitinol)을 이용하여 브라켓-호선 각도를 각각 $0^{\circ},\; 3^{\circ}8^{\circ},\; 9^{\circ}$로 조절하면서 실험한 결과, Gemini는 유의하게 가장 낮은 정지, 운동 마찰력을 보였으며 (P<0.001). Clarity는 $0^{\circ}$의 브라켓-호선 각도에서 Transcend는 $5^{\circ}와\;9^{\circ}$의 각도에서 유의하게 가장 높은 정지, 운동 마찰력을 보였고 (P<0.001) $0.016{\times}0.022"$ stainless steel 각형 호선은 유의하게 가장 높은 정지, 운동 마찰력을 보였으며 (P<0.01). 0.016" stainless steel 원형 호선은 $0^{\circ}와\;3^{\circ}$의 브라켓-호선 각도에서 (P<0.01), 0.016" Nitinol은 $8^{\circ}와\;9^{\circ}$의 각도에서 (P<0.001) 유의하게 가장 낮은 정지. 운동 마찰력을 보였고 브라켓-호선 각도가 증가함에 따라 유의하게 정지, 운동 마찰력도 증가하였다 (P<0.001)