• 한국지진공학회논문집
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• 제14권4호
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• pp.23-28
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• 2010

본 연구는 철골 모멘트 골조의 이력거동을 잘 나타내는 강도한계 이선형 단자유도 시스템에 대하여 지반조건, 후탄성 기울기, 감쇠비, 항복강도 저감계수, 고유주기 등의 변화가 비탄성변위비에 미치는 영향을 분석하였다. NEHRP의 기준에 따라 B(보통암지반), C(매우 조밀한 토사지반), D(단단한 토사지반)의 지반조건에 해당하는 총 240개의 지진 가속도에 대하여 비선형 시간이력 해석을 수행하였다. 본 연구에서는 비탄성 거동 하에서 P-$\Delta$ 효과를 반영할 수 있도록 음강성비를 -0.1 에서 -0.5까지 고려하였다. 비선형 회귀분석을 통하여 감쇠비 2%, 5%, 10%, 20%에 대한 강도한계 이선형 모델의 비탄성 변위비와 로그표준편차식을 제안하였다.

• 대한기계학회논문집A
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• 제27권9호
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• pp.1562-1570
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• 2003

The prediction of the inelastic behavior of the structure is an essential part of reliability assessment procedure, because most of the failures are induced by the inelastic deformation, such as creep and plastic deformation. During decades, there has been much progress in understanding of the inelastic behavior of the materials and a lot of inelastic constitutive equations have been developed. The complexity of these constitutive equations generally requires a stable and accurate numerical method. The radial return mapping is one of the most robust integration scheme currently used. Nonlinear kinematic hardening model of Armstrong-Fredrick type has recovery term and the direction of kinematic hardening increment is not parallel to that of plastic strain increment. In this case, The conventional radial return mapping method cannot be applied directly. In this investigation, we expanded the radial return mapping method to consider the nonlinear kinematic hardening model and implemented this integration scheme into ABAQUS by means of UMAT subroutine. The solution of the non-linear system of algebraic equations arising from time discretization with the generalized midpoint rule is determined using Newton method and bisection method. Using dynamic yield condition derived from linearization of flow rule, the integration scheme for elastoplastic and viscoplastic constitutive model was unified. Several numerical examples are considered to demonstrate the efficiency and applicability of the present method.

• 마이크로전자및패키징학회지
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• 제30권4호
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• pp.50-60
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• 2023

BGA(ball grid array)는 높은 집적도와 우수한 방열 성능을 갖고 있어 널리 이용되는 방식의 패키지이다. BGA에서 솔더볼은 패키지와 PCB를 전기적으로 연결하는 중요한 역할을 하므로, 다양한 기계적 하중 하에서 솔더볼의 비탄성 변형을 이해하는 것은 반도체 패키지의 강건설계에 필수적이다. 본 연구에서는 공정 중 PCB의 휨, die와 substrate 간의 열팽창 계수 차이 등으로 인해 소성변형이 발생한 솔더볼의 초기 형상이 비탄성 변형과 파단에 미치는 영향을 유한요소 해석으로 분석하였다. 시뮬레이션 결과, shear와 bending 하중에서 tilted, hourglass 형상 모두 파단이 발생한 반면, compression 하중이 작용하는 경우는 모두 파단이 발생하지 않았다. Shear와 bending 하중에 compression이 각각 결합될 경우, 응력삼축비가 0보다 작은 값으로 유지되어 파단이 억제되었다. 또한 변형에 취약한 요소의 Lagrangian-Green 변형률 텐서를 이용해 비교한 결과, 동일한 하중 조건이라도 솔더볼의 형상에 따라 변형의 양상에 유의미한 차이가 있음을 확인하였다.

• 대한토목학회논문집
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• 제26권3A호
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• pp.447-455
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• 2006

순수변위 비선형 4절점 쉘요소의 정식화를 제안하여 철근 콘크리트, 강재및 복합재료등 범용 목적의 구조물의 해석에 적합하도록 하였다. 기하강성의 정식은 2차 운동역학적 관계를 이용하여 쉘이 중립면에서 정의되었고 이러한 기하강성은 면내응력, 휨 모멘트와 수직 전단력의 형태로 구성되어 두꺼운 판 및 쉘의 해석에 효과적이다. 가정된 자연 변형률 방법을 사용하여 전단잠김 문제를 제거한 복합 쉘 요소는 얇은 판및 쉘의 경우에도 정확한 해를 구할 수 있다. 콘크리트 경우 소성이론 및 탄소성 파괴역학에 근거한 비탄성 해석이 가능하며 강재경우 폰미스의 항복이론과 이바노브의 항복이론을 이용한 소성해석이 가능하다. 복합 재료의 수직전단 강성 행렬은 평형방정식으로부터 유도하여 구성하였다. 본 연구에서 제안한 쉘 요소는 해석 예제들이 참고문헌과 잘 일치하여 정확성이 입증되었으며 범용목적의 박판구조 해석에 적합한 것으로 사료 되었다.

• Coupled systems mechanics
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• 제2권1호
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• pp.85-110
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• 2013

Generally, mass concrete structural behavior is governed by the strain components. However, relevant guidelines in dam engineering evaluate the structural behavior of concrete dams using stress-based criteria. In the present study, strain-based criteria are proposed for the first time in a professional manner and their applicability in seismic failure evaluation of an arch dam are investigated. Numerical model of the dam is provided using NSAD-DRI finite element code and the foundation is modeled to be massed using infinite elements at its far-end boundaries. The coupled dam-reservoir-foundation system is solved in Lagrangian-Eulerian domain using Newmark-${\beta}$ time integration method. Seismic performance of the dam is investigated using parameters such as the demand-capacity ratio, the cumulative inelastic duration and the extension of the overstressed/overstrained areas. Real crack profile of the dam based on the damage mechanics approach is compared with those obtained from stress-based and strain-based approaches. It is found that using stress-based criteria leads to conservative results for arch action while seismic safety evaluation using the proposed strain-based criteria leads to conservative cantilever action.

• 소성∙가공
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• 제16권2호
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• pp.101-106
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• 2007

Uniaxial displacement controlled tests were performed on annealed Type 304 stainless steel at room temperature. A servo-controlled testing machine and strain measurement on the gage length were employed to measure the response to a given input. The test results exhibit that the flow stress increases nonlinearly with the strain rate and the relaxed stress at the end of the relaxation periods depends strongly on the strain rate preceding the relaxation test. The rate-dependent inelastic deformation behavior is simulated using a new unified viscoplasticity model that has the rate-dependent format of nonlinear kinematic hardening rule, which plays a key role in modeling the rate dependence of relaxation behavior. The model does not employ yield or loading/unloading criteria and consists of a flow law and the evolution laws of two tensor and one scalar-valued state variables.

• 대한기계학회논문집A
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• 제26권7호
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• pp.1302-1308
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• 2002

Thermo-mechanical and flexural behavior of a wire-bond plastic ball grid array (WB-PBGA) package are characterized by high sensitive moire interferometry. Moire fringe patterns are recorded and analyzed for several bending loads and temperatures. At the temperature higher than $100^{\circ}C$, the inelastic deformation in solder balls become more dominant, so that the bending of the molding compound decreases while temperature increases. The deformation caused by thermally induced bending is compared with that caused by mechanical bending. The strain results show that the solder ball located at the edge of the chip has largest shear strain by the thermal load while the maximum average shear strain by the bending moment occurs in the end solder.

• 한국터널지하공간학회 논문집
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• 제19권4호
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• pp.567-576
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• 2017

본 연구에서는 지반보강용 시멘트-페이스트에 초음파를 조사하여 온도변화, 점도, 일축압축강도, 육안관측 시험을 통해 초음파가 시멘트-페이스트에 어떠한 물리적 특성을 변화시키는지에 대하여 고찰하였다. 실험에 사용된 w/c는 50~100%까지 다양하게 진행하였으며, 그라우트재의 온도변화는 ${\pm}2^{\circ}C$내에서 범위를 벗어나지 않도록 조절하여 실험을 진행하였다. 실험결과 온도변화는 초음파 조사시간에 비례하여 일정하게 증가하였고, 초음파를 조사한 지반보강용 시멘트-페이스트 점도는 최대 40%까지 감소하는 것으로 나타났다. 일축압축강도는 평균 30% 증가하였으며 육안관측시험에서도 초음파를 조사한 시멘트-페이스트의 단면이 공극이 많이 감소하는 양상을 보였다.

• 콘크리트학회논문집
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• 제15권5호
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• pp.747-758
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• 2003

The moment-curvature envelope describes the changes in the flexural capacity with deformation during a nonlinear analysis. Therefore, the moment-curvature analysis for reinforced concrete columns, indicating the available flexural strength and ductility, can be conducted providing the stress-strain relation for the concrete and steel are known. The moments and curvatures associated with increasing flexural deformations of the column may be computed for various column axial loads by incrementing the curvature and satisfying the requirements of strain compatibility and equilibrium of forces. Clearly it is important to have accurate information concerning the complete stress-strain curve of confined high-strength concrete in order to conduct reliable moment-curvature analysis that assesses the ductility available from high-strength concrete columns. However, it is not easy to explicitly characterize the mechanical behavior of confined high-strength concrete because of various parameter values, such as the confinement type of rectilinear ties, the compressive strength of concrete, the volumetric ratic and strength of rectangular ties. So a stress-strain model is developed which can simulate complete inelastic moment-curvature relations of high-strength concrete columns.

• 한국압력기기공학회 논문집
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• 제12권2호
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• pp.50-57
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• 2016

The study presents structural integrity assessment of ductility degradation of a baffle former assembly by performing finite element analysis considering real loading conditions and stress triaxiality. Variations of fracture strain curves of type 304 austenitic stainless steel with stress triaxiality are derived based on the previous study results. Temperature distributions during normal operation such as heat-up, steady state, and cool-down are calculated via finite element temperature analysis considering gamma heating and heat convection with reactor coolant. Variations of stress and strain state during long operation period are also calculated by performing sequentially coupled temperature-stress analysis. Fracture strain is derived by using the fracture curve and the stress triaxility. Finally, variations of ductility degradation damage indicator with the fracture strain and the equivalent inelastic strain are investigated. It is found that maximum value of the ductility degradation damage index continuously increases and becomes 0.4877 at 40 EFPYs. Also, the maximum value occurs at top and middle inner parts of the baffle former assembly before and after 20 EFPYs, respectively.