• 대한기계학회논문집
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• 제18권3호
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• pp.540-547
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• 1994

Contact and frictional locking conditions and the effect of shielding due to contact at the facet, which could be represented by the difference in energy release rate, as a function of phase angle of loading are analyzed in this study for the case of interfacial cracks by assuming single crack-kink model. The analysis of contact effects on interfacial fracture resistance shows that relative shielding increases as the shear component was increased, which indicates a qualitative agreement with the previous experimental results.

• 대한기계학회논문집A
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• 제27권1호
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• pp.126-137
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• 2003

Many research works have been performed on the J-T approach for elastic-plastic crack-tip stress fields in a variety of plane strain specimens. To generalize the validity of J-T method, further investigations are however needed fur more practical 3D structures than the idealized plane strain specimens. The present study deals mainly with 3D finite element (FE) modeling of welded plate and straight pipe, and accompanying elastic, elastic-plastic FE analyses. Manual 3D modeling is almost prohibitive, since the models contain semi-elliptical interfacial cracks which require singular elements. To overcome this kind of barrier, we develop a program generating the meshes fur semi-elliptical interfacial cracks. We then compare the detailed 3D FE stress fields to those predicted with J-T two parameters. The validity of J-T approach is thereby extended to 3D yield-strength-mismatched weld joints, and useful information is inferred fur the design or assessment of pipe welds.

• 대한기계학회논문집A
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• 제26권7호
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• pp.1250-1261
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• 2002

Many research works have validated the J-T approach to elastic-plastic crack-tip stress fields in a variety of plane strain specimens. To generalize the validity of J-T method, further investigations are however needed for more practical 3D structures than the idealized plane strain specimens. In this work, we perform 3D finite element (FE) modeling of welded plate and straight pipe, and accompanying elastic, elastic-plastic FE analyses. Manual 3D modeling is almost prohibitive, since the models contain semi-elliptical interfacial cracks which require singular elements. To overcome this kind of barrier, we develop a program generating the meshes for semi-elliptical interfacial cracks. We then compare the detailed 3D FE stress fields to those predicted with J-T two parameters. Thereby we extend the validity of J-T application to 3D structures and infer some useful informations for the design or assessment of pipe welds.

• 한국강구조학회 논문집
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• 제9권4호통권33호
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• pp.515-521
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• 1997

마그네슘 금속 복합재의 열처리 및 섬유 강화재 방향에 따른 효과를 파악하기 위하여 인장강도 및 피로해석이 연구되었다. TEM 관측에 따라 시편은 섬유 강화재와 마그네슘 복합기지 사이의 시효 열처리된 변형된 계면이다. 인장실험 결과로부터 시효 처리된 시편의 극한 인장강도는 주조상태의 시편보다 시효 처리시 화학반응에 의한 섬유 강화재-기지간의 접합강도 약화로 감소하였다. 피로균열 거동실험은 균열거동 방향이 섬유 강화재 방향과 수직인 시편과 균열거동 방향이 섬유 강화재 방향과 평행한 시편을 실험하였다. 피로균열 거동해석을 비교해보면 섬유 강화재와 하중방향이 수직인 시효처리된 시편의 경우가 주조상태의 시편보다 피로균열 거동에 더 크게 저항하였다. 반대로 섬유 강화재 방향에 평행한 주조상태의 시편은 섬유 강화재 방향에 평행한 시효처리된 시편보다 피로 균열거동에 더 크게 저항함을 알 수 있었다.

• 한국마이크로전자및패키징학회:학술대회논문집
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• 한국마이크로전자및패키징학회 2004년도 추계 기술심포지움 초록집
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• pp.11-11
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• 2004

• Geomechanics and Engineering
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• 제16권1호
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• pp.49-58
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• 2018

Open-mode cracks could be commonly observed in layered rocks. A concept model is firstly used to explore the mechanism of the vertical cracks (VCs) in the top layer. Then the crack behaviour of the two-layer model is simulated based on a cohesive zone model (CZM) for layer interfaces and a plastic-damage model for rocks. The model indicates that the tensile stress normal to the VCs changes to compression if the crack spacing to layer thickness ratio is lower than a threshold. The results indicate that there is a threshold for interfacial shear strength that controls the crack patterns of the layered system. If the shear strength is lower than the threshold, the top layer is meshed by the VCs and interfacial cracks (ICs). When the shear strength is higher than the threshold, the top layer is meshed by the VCs and parallel cracks (PCs). If the shear strength is comparative to the threshold, a combining pattern of VCs, PCs and ICs for the top layer can be formed. The evolutions of stress distribution in the crack-bound block indicate that the ICs and PCs can reduce the load transferred for the substrate layer, and thus leads to a crack saturation state.

• 대한기계학회논문집
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• 제10권1호
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• pp.34-42
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• 1986

본 논문에서는 균열면이 원호(circular arc)를 이루고, Comninou 모델과 같이 균열면의 일부가 접촉되어 있는 경우 L적분이 적분경로에 무관함을 증명하고 이를 이용하여 재료가 서로 다른 원형 개재물과 기재와의 경계면에 존재하는 계면 균열에서의 응력확대계수를 구하는 방법에 대해 살펴보았다. 기지가 무한 고체이고 접촉역이 작아 접촉역의 존재가 균열선단에서 멀리 떨어진 곳에서의 응력장에 거의 영향을 끼치지 아`는 경우에는 접촉역을 가정하지 않은 문제에 대한 해, 즉 진동특성을 나타내는 해로 부터, L적분의 성질을 이용하여, 접촉역을 가정하였을 때의 응력확대 계수를 간단한 꼴로 표시할 수 있었고, 유한의 기지에 원형 개재물이 존재하는 문제에 대해서는 F.E.M을 사용하여 L적분을 계산함으로써 응력확대계수를 구할 수 있었다.

• Steel and Composite Structures
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• 제16권2호
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• pp.203-220
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• 2014

Stress intensity factors are numerically investigated for interfacial edge crack between two dissimilar composite plates jointed with single side composite patch. Variation of stress intensity factor under Mode I loading condition is examined for different material models and fiber orientation angles of composite plates and patch. ANSYS 12.1 finite element analysis software is used to obtain displacements of crack surfaces in the numerical solution and repaired plates are modeled in three dimensions. Obtained results are presented in the form of graphs. It is found that fiber orientation angle of composites is an effective parameter on interfacial stress intensity factor.

• 한국생산제조학회지
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• 제20권3호
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• pp.284-291
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• 2011

Numerical experiments on biological interfacial layer, DEJ by finite element software ABAQUS have been conducted to study its fracture behavior including crack bridging / arresting characteristics in the model. Crack growth simulation has been carried out by numerical tool, XFEM, devoted to study cracks and discontinuities. The fracture toughness of DEJ has been estimated before and after crack bridging. The implications of bridging in numerical study of fracture behavior of DEJ-like biological interface have been discussed. It has been observed that the results provided by the numerical studies without proper accommodation of bridging phenomenon can mislead. This study can be helpful for understanding the DEJ-like biological interface in terms of its fracture toughness, an important material characteristics. This property of the material is an important measure that has to be taken care during design and manufacturing processes.

• 한국주조공학회지
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• 제15권4호
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• pp.388-396
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• 1995

This study has been conducted with the purpose of examining the fatigue crack growth characteristics of $Al_2O_3$ short fiber reinforced aluminum matrix composites made by squeeze casting process with different applied pressure and binder amount. Fatigue crack growth experiments have been performed under constant load amplitude method with a fixed load ratio. The rate of crack propagation was decreased with binder amount as well as applied pressure. Also fatigue crack growth path in matrix was changed from flat to rough mode with an increase of applied pressure. In the composites, fatigue crack was propagated to interface between matrix and reinforcement at 10MPa, but it was propagated to reinforcement at 20MPa. The major reason of thee result was considered that interfacial bonding force and microstructure of matrix were improved due to an increase of applied pressure. Localized ductile striation in the composites was observed at low growth rate region and such a phenominon was remarkable with an increase of applied pressure. At high growth rate region, the propensity of fracture appearance was changed from interfacial debonding to reinforcement fracture with an increase of applied pressure.