• 한국소성가공학회:학술대회논문집
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• 한국소성가공학회 1997년도 춘계학술대회논문집
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• pp.140-143
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• 1997

The present study is concerned with the hydrostatic extrusion process of copper-clad aluminium bar to investigate the basic flow characteristics. Considering the bonding mechanism of bi-metal contact surface as cold pressure welding, the normal pressure and the contact surface expansion are selected as process parameters governing the bonding condition. The critical pressure required for the bonding at the interface is obtained by solving a "local extrusion" using a slip line meyhod. A viscoplastic finite element method is used to analyze the steady state extrusion process. The boundary profile of bi-metal rod is predicted by tracking a particle path adjacent to interface surface. The variations of contact surface area and the normal pressure along the interface profile are predicted and compared to those by experiments.

• Geomechanics and Engineering
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• 제11권4호
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• pp.515-530
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• 2016

In this paper, five different quantitative parameters were proposed for the characterization of the primary roughness which is the component of surface morphology that prevails during large strike-slip faults of more than 50 m. These parameters are mostly the anisotropic properties of rock surface morphology at various scales: (i) coefficient ($k_a$) and degree (${\delta}_a$) of apparent structural anisotropy of surface; (ii) coefficient ($k_r$) and degree (${\delta}_r$) of real structural anisotropy of surface; (iii) surface anisotropy function P(${\varphi}$); and (iv) degree of surface waviness ($W_s$). The coefficient and degree of apparent structural anisotropy allow qualifying the anisotropy/isotropy of a discontinuity according to a classification into four classes: anisotropic, moderately anisotropic/isotropic and isotropic. The coefficient and degree of real structural anisotropy of surface captures directly the actual surface anisotropy using geostatistical method. The anisotropy function predicts directional geometric properties of a surface of discontinuity from measurements in two orthogonal directions. These predicted data may subsequently be used to highlight the anisotropy/isotropy of the surface (radar plot). The degree of surface waviness allows qualifying the undulation of anisotropic surfaces. The proposed quantitative parameters allows their application at both lab and field scales.

• 지질공학
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• 제30권3호
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• pp.289-302
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• 2020

2016년 경상남도 하동군 땅밀림 지역의 지하구조와 미끄럼사면을 파악하기 위해 지구물리탐사(전기비 저항, 탄성파 굴절법, 시추공 영상촬영)와 사면안정해석을 실시하였다. 시추조사와 탄성파속도로 해석된 사면의 지층 및 지하구조는 20여 m의 두터운 퇴적층 밑에 구간에 따라 1 m보다 얇은 풍화암 및 연암이 각각 분포한다. 지표지질조사를 통하여 관찰된 인장균열의 지표흔적을 기준으로 시추공 BH-2에서 영상촬영을 수행하여 확인된 집중 파쇄대의 분포는 지하수면과 쌍극자배열 전기비저항 단면에서 해석된 활동연약대의 깊이와 잘 부합한다. 기반암 표면의 고비저항 돌출부는 연약대의 하부 진행을 막는 일종의 자연적인 받침대 역할을 하여 이것을 경계점으로 활동면이 미끄러지고 약간 위로 올라가는 휘어진 파괴면을 수반하는 땅밀림의 특성을 설명해준다. 활동연약대에 대한 사면안정해석에서 지하수면의 변동시켜가며 건기와 우기의 안전율을 계산한 결과 우기에 해당되는 0.89의 낮은 값은 지하수로 완전포화된 물질에 기인하는 바 조사지역의 사면은 호우 시 불안정한 사면으로 해석된다.

• 한국구조물진단유지관리공학회 논문집
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• 제15권2호
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• pp.136-143
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• 2011

고력볼트의 현장 조립시 볼트 구멍 간의 불일치로 인하여 볼트 구멍을 확장하는 경우가 빈번하게 발생하고 있으며, 이를 위해서 외국 기준에서는 볼트 구멍 크기, 형태, 하중 방향에 따라 미끄럼하중에 대한 규정을 따로 두고 있다. 그러나 우리나라의 경우 과대구멍에 대한 시방규정이나 이에 대한 접합부 특성에 관한 연구는 미흡한 실정이다. 따라서, 접합부재 표면처리와 볼트구멍 크기의 변화가 접합부 내력에 어떠한 영향을 미치는 지를 실험을 통해 정량적으로 평가할 필요가 있다. 본 연구에서는 볼트 구멍 크기 및 형태에 따른 접합부의 미끄럼하중의 변화와 체결 후, 장기축력이완의 경향을 분석하기 위하여 160시간 및 800시간 동안 고력볼트의 축력의 변화를 측정하였다. 본 실험대상 고력볼트로 KS B 2819에 규정된 TS(Torque Shear)형 고력볼트를 사용하였다. 표준 볼트구멍 대비 그 외 볼트구멍의 미끄럼하중의 변화는 10% 미만으로 나타났으며, 장기축력이완은 직경 2.5배의 슬롯구멍에서, 2.66%로 가장 높게 나타났다.

• 한국건설순환자원학회논문집
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• 제8권4호
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• pp.528-536
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• 2020

본 연구에서는 천연골재의 대체골재로써 폐유리 잔골재(이하 GS)를 고강도 모르타르에 혼입하여 일반강도 모르타르와의 역학적 특성, 알칼리-실리카 반응(이하 ASR), ASR 후 모르타르의 잔류 역학적 특성을 비교·분석하였다. 실험 결과, GS를 모르타르에 혼입하는 경우, 혼입률이 증가할수록 역학적 특성 저하 및 ASR 증가 현상이 확인되었다. 특히, 모르타르의 고강도화는 GS의 Slip 현상을 개선하기에는 한계가 있을 뿐만 아니라, 오히려 ASR을 더욱 촉진하는 것으로 확인되었다. ASR 후 잔류 역학적 특성에서 반응 초기에는 강도가 증가하였으나, 반응이 지속됨에 따라 강도가 감소하는 경향이 나타났다. 이를 통하여, ASR 생성물이 GS의 Slip 현상을 개선할 가능성이 있을 것으로 사료된다. 따라서, 폐유리 잔골재 Slip 현상을 개선하기 위한 GS 표면 개질 및 ASR 저감을 위한 혼화재 사용 등과 같은 후속 연구가 필요하다고 판단된다.

• 한국철도학회:학술대회논문집
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• 한국철도학회 2011년도 정기총회 및 추계학술대회 논문집
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• pp.2135-2146
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• 2011

The rail surface irregularity is generated severely by train braking effect in the section of station. The braking force increases slip rate and friction factors caused by wheel-rail contact points. It brings rail surface irregularity as well. In this study, interactions between wheel and rail were investigated using rolling contact fatigue theory and mechanism of rail degradation through fracture mechanics. For the more, the Von-Mises stress occurred on the rail due to the interaction between wheel and rail was analyzed using 3-D finite element method. The amounts of surface irregularity of rail were measured according to accumulated passing tonnage in urban railway in fields. Therefore, the maintenance of rail should be separated by running and braking sections to prevent RCF defects.

• 한국전산유체공학회:학술대회논문집
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• 한국전산유체공학회 2005년도 추계 학술대회논문집
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• pp.195-199
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• 2005

Wave breaking phenomenon near the fore body of a ship is numerically simulated. The ship advance with uniform velocity in calm water. For the simulation, incompressible Navier-Stokes equations and continuity equation are adopted as governing equations. The simulation is carried out in staggered variable mesh system with finite difference method. Marker and Cell(MAC) method and Marker-Density method are employed to track the free surface. Body boundary conditions are satisfied with the adoption of porosity method and no-slip condition on the hull surface. The ship model has a wedge type fore-body, and the computational domain is an appropriate region around the fore-body. The computation results are compared with some experimental results. Also the difference of the free surface tracking methods are discussed.

• 한국정밀공학회지
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• 제10권4호
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• pp.128-134
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• 1993

Work roll wear in the cold rolling of mild steel strip is strongly affected by rolling materials, rolling conditions and lubrication. The tests were performed to find the effects of rolling materials under the same lubrication conditions. The obtained results are as follfws; 1) The decrease in surface roughness of work roll is more rapid in that case of continuously cast A1-killed steel strip than ingot cast steel strip. In rolling of continuously cast A1-killed steel strip, worn powder rich in A1$\_$2/O$\_$3/sticks to the work roll surface, and so it makes the mirror surface of work roll accelerate. 2) Amount of work roll wear is small in rolling of continuously cast A1-killed strip. 3) In rolling of continously cast A1-killed steel strip, it is necessary to put up the intial surface roughness of work roll in order to prevent work roll slip.

• Tribology and Lubricants
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• 제38권5호
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• pp.222-226
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• 2022

Between diaphragms made of stainless steel (SUS), which is the main component of a hydrogen gas compressor, micro-slip occurs owing to repeated bending, resulting in scratches on the surface. The surface scratch of the compressor part is a problem with airtightness, which reduces the efficiency of the compressor; in severe cases, damage is a possibility. In this study, the changes in friction and wear characteristics due to the surface polishing of SUS and carbon-based solid lubricant films (graphene and CNT) were analyzed. Bare SUS, polished SUS, graphene film, and CNT film specimens were prepared. The surface roughness of the SUS was significantly reduced by surface polishing but increased by carbon-based solid lubricating films. In contrast, the friction coefficient maintained a similar value after surface polishing but was significantly reduced by the carbon-based solid lubricant films. In particular, the graphene film exhibited the lowest initial friction coefficient, while the CNT film exhibited the lowest overall average friction coefficient. Regarding the wear rate, polished SUS exhibited the lowest value, but the surface condition of the wear track showed that the carbon-based solid lubricating films were relatively less damaged. Although the wear rate measured was largely attributed to the solid lubricating film peeling off, the SUS surface under the film was considered protected.

• 한국정밀공학회지
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• 제26권12호
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• pp.117-122
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• 2009

The hexagonal network-type PDMS microstructures were fabricated and they were employed to low-friction drag surfaces. While the lowest contact angle measured from the smooth surface was $108^{\circ}$ the highest contact angle measured from the microstructured surfaces was $145^{\circ}$ The moving speed of bullet-type capsule attached with a PDMS pad of smooth surface ($CA=108^{\circ}$) was 0.1261 m/s and that with a PDMS pad of microstructured surface ($CA=145^{\circ}$) was 0.1464 m/s. Compared with the smooth surface, the microstructured surface showed 16.1% higher moving speed. The network-type microstructures have a composite surface that is composed with air and PDMS solid. Therefore, the surface does not wet: rather water is lifted by the microstructures. Because of the composite surface, water shows slip-flow on the microstructures, and thus friction drag can be reduced.