• Proceedings of the Korea Water Resources Association Conference
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• 2021.06a
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• pp.259-259
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• 2021

하상을 구성하는 사립자들이 흐름에 의해 움직이기 시작하는 상태를 한계운동이라 하며, 한계운동이 시작될 때의 흐름조건을 한계조건이라 한다. 흐름에 부유되어 이동하는 부유사의 농도분포를 정확하게 산정하기 위해서는 하상재료의 침식율을 정확하게 산정하는 것이 필요하다. 특히 하상재료에 다양한 크기의 하상재료가 혼합되어 있을 때에는 차폐효과(Hiding-Exposure Effect)에 대한 고려가 필요하다. 여기서 차폐효과란, 동일한 크기의 사립자들로 구성된 균질 하상에 비해 비균질 하상에서 굵은 사립자가 흐름에 더 많이 노출되어 한계소류력이 감소하고, 잔 사립자의 한계소류력이 굵은 사립자로 인해 증가하는 현상을 의미한다. 하상토의 차폐효과는 Shields (1936)에서 제안된 무차원 한계소류력을 각 사립자의 크기별로 산정 한 후 보정계수를 곱해 고려해주는 것이 일반적이다. 이에 본 연구에서는 하상재료의 차폐효과가 부유사의 연직방향 농도분포에 미치는 영향을 살펴보았다. 연구를 수행하기 위해 하상토의 입도분포를 바탕으로 차폐효과를 고려하고 연직방향으로의 유사농도를 계산하는 유사이동모형을 개발하였다. 수치모형의 검증은 실험실 실험자료와의 비교를 통해 수행되었다. 수치모의 결과로부터 차폐효과를 고려하지 않는 경우에는 하상에서의 침식율이 과다하게 산정되는 것으로 나타났으며, 불균질한 하상재료로 구성된 하천에서 부유사의 연직방향 유사농도를 정확하게 계산하기 위해서는 차폐효과에 대한 고려가 필요하다는 결론이 도출되었다.

• Proceedings of the Korea Water Resources Association Conference
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• 2021.06a
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• pp.260-260
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• 2021

본 연구의 목적은 다양한 크기의 사립자들로 구성된 비균질 하상으로부터 부유된 유사의 연직방향 농도분포에 난류 감소효과가 미치는 영향을 살펴보는 것이다. 여기서 난류감소효과란 유사의 존재로 인해서 난류의 구조가 변화하는 것을 의미한다. 연구를 수행하기 위하여 난류감소 효과를 고려할 수 있는 비점착성 사립자의 유사이동 모형을 개발하였다. 유사이동 모형에서는 사립자 크기범위를 여러개의 계급구간으로 분할하여 하상재료의 입도분포를 고려할 수 있으며, 하상재료의 구성에 따른 부유사의 농도분포를 계산한다. 개발된 모형의 검증은 실험실 실험자료와의 비교를 통해 수행하였다. 유사이동 모형에서 난류감소 효과를 고려하지 않을 경우 농도와 유속의 연직분포가 과대산정 되는 것이 여러 연구에서 확인된 바 있다. 이에 본 연구에서는 한방향으로의 정류상태 흐름 조건과 다양한 크기가 혼재되어 존재하는 유사 조건을 가정하여 난류구조의 변화와 부유사 농도의 연직분포 변화를 살펴보았다. 연구결과로부터 난류감소 효과를 고려하지 않는 경우에는 부유사의 농도가 과다하게 산정되는 것으로 나타났으며, 불균질한 하상재료로 구성된 하천에서 부유사의 연직방향 유사농도를 정확하게 계산하기 위해서는 난류감소 효과에 대한 고려가 필요하다는 결론이 도출되었다.

• Journal of the Korea Concrete Institute
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• v.18 no.2 s.92
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• pp.189-198
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• 2006

The composition of most engineering materials is heterogeneous at some degree. It is simply a question of scale at which the level of heterogeneity becomes apparent. In the case of cementitious granular materials such as concrete the heterogeneity appears at the mesoscale where it is comprised of aggregate particles, a hardened cement paste and voids. Since it is difficult to consider each separate particle in the topological description explicitly, numerical models of the meso-structure are normally confined to two-phase matrix particle composites in which only the larger inclusions are accounted for. 2-D and 3-D concrete blocks(Representative Volume Element, RVE) are used to simulating heterogeneous concrete meso-structures in the form of aggregates in the hardened mortar with nearly zero-thickness linear or planar interfaces. The numerical sensitivity of these meso-structures are Investigated with respect to the different morphologies of heterogeneity and the different level of coupling constant among fracture mode I, II and III. In addition, a numerically homogenized concrete block in 3-D using Hashin-Shtrikman variational bounds provides an evidence of the effective cracking paths which are quite different with those of heterogenous concrete block. However, their average force-displacement relationship show a pretty close match each other.

• Proceedings of the Materials Research Society of Korea Conference
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• 2001.05a
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• pp.146-146
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• 2001

• Journal of the Korea institute for structural maintenance and inspection
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• v.23 no.5
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• pp.104-110
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• 2019

Shrinkage is one of typical characteristics of concrete with cement paste and aggregates. A lot of studies on this has been conducted with an assumption that the concrete is a homogeneous material. However, as shrinkage acts on only one of the components that consist of concrete, it is hard to be characterized only by the average effective properties. Therefore, in this paper, the concrete shrinkage, which is one of the typical characteristics and still has a lot of uncertainty, is simulated considering its heterogeneous properties. Using a meso model, concrete is modeled with the combination of mortar and aggregates, and the shrinkage is simulated by applying the shrinkage strain on the mortar only. According to the results, it is shown that the cracking of shrinking concrete is largely influenced by the types of aggregates and the degree of restraint. Also, the shrinkage cracking cannot be represented only by the single values such as tensile strength since the stiffness of aggregates and the degree of restraint influence the cracking.

• Journal of the Computational Structural Engineering Institute of Korea
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• v.31 no.2
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• pp.105-114
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• 2018

In this paper, the computer simulations are carried out by using the peridynamic theory model with various conditions including quasi-static loads, dynamic loads and crack propagation, branching crack pattern and isotropic materials, orthotropic materials. Three examples, a plate with a hole under quasi-static loading, a plate with a pre-existing crack under dynamic loading and a lamina with a pre-existing crack under quasi-static loading are analyzed by computational simulations. In order to simulate the quasi-static load, an adaptive dynamic relaxation technique is used. In the orthotropic material analysis, a homogenization method is used considering the strain energy density ratio between the classical continuum mechanics and the peridynamic. As a result, crack propagation and branching cracks are observed successfully and the direction and initiation of the crack are also captured within the peridynamic modeling. In case of applying peridynamic used homogenization method to a relatively complicated orthotropic material, it is also verified by comparing with experimental results.

• Journal of the Earthquake Engineering Society of Korea
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• v.5 no.1
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• pp.1-6
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• 2001

P파와 SV파와 입사할 때 비균질 퇴적층에서의 지진응답을 유한요소법과 경계여소법을 조합하여 해석하였다. 유한요소법을 사용하여 불규칙한 기하형상과 비균질 재료 특성을 모델링하였고, 경계요소법을 사용하여 인위적인 경계로부터 불필요한 파의 반사를 없앨수 있게 반무한 영역을 모델링하였다. 경계요소의 기본해는 반무한 영역문제에서 반드시 고려해야하는 방사조건을 자동적으로 만족시킨다. 따라서 외부영역과 내부영역의 접촉면에서 표면력의 평행조건과 변위의 연속조건을 사용하여 P파와 SV파에 의한 지진응답을 해석하였다.

• Journal of the Computational Structural Engineering Institute of Korea
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• v.33 no.2
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• pp.81-93
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• 2020

The fatigue characteristics of glass fiber reinforced plastic (GFRP) composites were studied under repeated loads using the finite element method (FEM). To realize the material characteristics of GFRP composites, Digimat, a mean-field homogenization tool, was employed. Additionally, the micro-structures and material models of GFRP composites were defined with it to predict the fatigue behavior of composites more realistically. Specifically, the fatigue characteristics of polybutylene terephthalate with short fiber fractions of 30wt% were investigated with respect to fiber orientation, stress ratio, and thickness. The injection analysis was conducted using Moldflow software to obtain the information on fiber orientations. It was mapped over FEM concerned with fatigue specimens. LS-DYNA, a typical finite element commercial software, was used in the coupled analysis of Digimat to calculate the stress amplitude of composites. FEMFAT software consisting of various numerical material models was used to predict the fatigue life. The results of coupled analysis of linear and nonlinear material models of Digimat were analyzed to identify the fatigue characteristics of GFRP composites using FEMFAT. Neuber's rule was applied to the linear material model to analyze the fatigue behavior in LCF regimen. Additionally, to evaluate the morphological and mechanical structure of GFRP composites, the coupled and fatigue analysis were conducted in terms of thickness.

• Journal of the Korean Society for Nondestructive Testing
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• v.15 no.2
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• pp.364-370
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• 1995

The purpose of this paper was to develop a nondestructive evaluation method of sintered material by ultrasonic method. The density distribution of sintered material becomes inhomogeneous partially because of the friction between the powder and the die during compaction. The inhomogeneity was investigated by measurement of the energy attenuation coefficient and the shift of the center frequency in the frequency spectrum of the ultrasonic reflection echo. The experimental results showed that the center frequency of reflection wave depended linearly on the density of sintered materials. However, the attenuation coefficient decreased inversely as the density increased. This study shows that the shift of the center frequency in the frequency spectrum of reflection wave can be used to a nondestructive evaluation of sintered materials.

• Composites Research
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• v.18 no.3
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• pp.21-30
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• 2005

Vacuum hot pressing has been used for the development of titanium metal matrix composites using foil-fiber-foil method. Heterogeneous microstructures prior to and following consolidation have been quantified, and the relations to densification behavior investigated. As shown by the results, dramatic variations of the microstructures including equiaxed $\alpha$, transformed $\beta$ and $ Widmanst\ddot{a}tten$ $\alpha$ are obtained during the process according to the fiber distributions. The dependence of microstructures on the consolidation then has been explained in terms of the change in mechanisms such as grain growth and recrystallization that occur with changing levels of inhomogeneity of deformation. Further, micro-mechanics based constitutive model enabling the evolution of density over time together with the evolutions of microstructure to be predicted has been developed. The mode developed is then implemented into finite element scheme so that practical process simulation has been carried out.