• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2008년도 하계학술대회 논문집 Vol.9
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• pp.76-76
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• 2008

The resonance properties due to the surface plasmon(SP) excitation of metal nanoparticles make the nanocomposite films promising for various applications such as optical switching devices. In spite of the well-known ultra-sensitive operation of optical switches based on a guided wave, the application of nanocomposite film(NC) has inherent limitation originating from the excessive optical loss related with the surface plasmon resonance(SPR). In this study, we addressed this problem and present the experimental and theoretical analysis on the pump-probe optical switching in prism-coupled Au(1 vol.%):$SiO_2$ nanocomposite waveguide film. The guided mode was successfully generated using a near infrared probe beam of 1550 nm and modulated with an external pump beam of 532 nm close to the SPR wavelength. We extend our approach to ultra-fast operation using a pulsed laser with 5 ns pulse width. To improve the switching speed through the reduction in thermal loading effect accompanied by the resonant absorption of pump beam light, we adopted a metallic film as a coupling layer instead of low-index dielectric layer between the high-index SF10 prism and NC slab waveguide. We observed great enhancement in switching speed for the case of using metallic coupling layer, and founded a distinct difference in origin of optical nonlinearities induced during switching operation using cw and ns laser.

• Geomechanics and Engineering
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• 제12권2호
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• pp.295-312
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• 2017

Cast in situ and grouted concrete helical piles with 150-200 mm diameter half cylindrical ribs have become an economical and effective choice in Shanghai, China for uplift piles in deep soft soils. Though this type of pile has been successful used in practice, the reinforcing mechanism and the contribution of the ribs to the total resistance is not clear, and there is no clear guideline for the design of such piles. To study the inclusion of ribs to the contribution of shear resistance, the shear behaviour between silty sand and concrete slabs with parallel ribs at different spacing and angles were tested in a large direct shear box ($600mm{\times}400mm{\times}200mm$). The front panels of the shear box are detachable to observe the soil deformation after the test. The tests were modelled with three-dimensional finite element method in ABAQUS. It was found that, passive zones can be developed ahead of the ribs to form undulated failure surfaces. The shear resistance and failure mode are affected by the ratio of rib spacing to rib diameter. Based on the shape and continuity of the failure zones at the interface, the failure modes at the interface can be classified as "punching", "local" or "general" shear failure respectively. With the inclusion of the ribs, the pull out resistance can increase up to 17%. The optimum rib spacing to rib diameter ratio was found to be around 7 based on the observed experimental results and the numerical modelling.

• Structural Engineering and Mechanics
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• 제55권4호
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• pp.765-784
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• 2015

Connections are usually designed either as pinned usually associated with simple construction or rigid normally is associated with continuous construction. However, the actual behaviour falls in between these two extreme cases. The use of partial strength or semi-rigid connections has been encouraged by Euro-code 3 and studies on semi-continuous construction have shown substantial savings in steel weight of the overall construction. Composite connections are proposed in this paper as partial or full strength connections. Standardized connection tables are developed based on checking on all possible failure modes as suggested by "component method" for beam-to-column composite connection on major axis. Four experimental tests were carried out to validate the proposed standardised connection table. The test results showed good agreement between experimental and theoretical values with the ratio in the range between 1.06 to 1.50. All tested specimens of the composite connections showed ductile type of failure with the formation of cracks occurred on concrete slab at maximum load. No failure occurred on the Trapezoidal Web Profiled Steel Section as beam and on the British Section as column.

• Steel and Composite Structures
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• 제20권3호
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• pp.651-669
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• 2016

The behavior of shear connectors plays a significant role in maintaining the required strength of a composite beam in normal and hazardous conditions. Various types of shear connectors are available and being utilized in the construction industry according to their use. Channel connectors are a suitable replacement for conventional shear connectors. These connectors have been tested under different types of loading at ambient temperature; however, the behavior of these connectors at elevated temperatures has not been studied. This investigation proposes a numerical analysis approach to estimate the behavior of channel connectors under fire and compare it with the numerical analysis performed in headed stud and Perfobond shear connectors subjected to fire. This paper first reviews the mechanism of various types of shear connectors and then proposes a non-linear thermo-mechanical finite element (FE) model of channel shear connectors embedded in high-strength concrete (HSC) subjected to fire. Initially, an accurate nonlinear FE model of the specimens tested at ambient temperature was developed to investigate the strength of the channel-type connectors embedded in an HSC slab. The outcomes were verified with the experimental study performed on the testing of channel connectors at ambient temperature by Shariati et al. (2012). The FE model at ambient temperature was extended to identify the behavior of channel connectors subjected to fire. A comparative study is performed to evaluate the performance of channel connectors against headed stud and Perfobond shear connectors. The channel connectors were found to be a more economical and easy-to-apply alternative to conventional shear connectors.

• 한국강구조학회 논문집
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• 제19권5호
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• pp.473-482
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• 2007

합성보가 구조적으로 안전하게 거동하고, 합성단면이 고유의 극한모멘트를 발휘하기 위해서는 전단연결재의 강도뿐만아니라 연성적 거동이 전제조건으로 작용한다. 본 연구에서는 고강도 콘크리트가 사용된 합성보에서 하중형태, 합성율 및 전단스터드의 배치를 달리 하였을 때 일반강도 콘크리트가 사용된 경우에 비해 비교적 적은 스터드의 변형능력이 구조거동 및 설계조건에 미치는 영향을 유한요소해석을 통해 분석하여 보았다. 해석결과에 따르면 고강도 콘크리트를 사용한 합성보의 부분합성 설계에서는 스터드 자체의 강도와 상대변위로 평가되어지는 변형능력이 함께 고려되어야 한다. 특히, 스터드가 등간격으로 배치된 합성보에 등분포 또는 유사 형태의 하중이 작용할 경우 스터드의 변형능력이 합성설계에 대한 제약조건으로 작용하며 이러한 경우 스터드는 외부하중에 대한 전단력의 분포를 고려하여 배치되어야 한다.

• 토지주택연구
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• 제3권2호
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• pp.195-202
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• 2012

이 논문은 KBC2009에서 규정하고 있는 RC 특수전단벽과 시공성 개선을 목적으로 제안된 경계요소 내 완화된 배근상세를 갖는 특수전단벽과의 비교 실험결과를 제시하고 있다. 연구목적에 따라 22층 벽식구조 아파트로부터 모델링된 최하층 벽체가 2/3크기로 축소되어 2개의 실험체가 제작되었으며, 일정축력 하에서 반복가력 실험이 실시되었다. 실험결과, 완화된 배근상세를 따르는 특수전단벽체은 KBC2009의 배근상세를 따르는 특수전단벽체와 등가점성 감쇠비를 통해 계산된 에너지소산능력 및 연성도에서는 약간의 차이를 보이고 있으나, 하중-변위 측면에서는 매우 유사한 능력을 보이는 것으로 나타났다. 또한, 현행 설계기준에서 제시하고 있는 1.5% 수준의 층간횡변위비 조건을 충분히 만족하고 있음을 확인하였다.

• 한국구조물진단유지관리공학회 논문집
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• 제25권5호
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• pp.8-14
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• 2021

포스트텐션 프리스트레스트 콘크리트 부재는 즉시 손실 이외에도 크리프, 건조수축 및 릴렉세이션과 같은 시간적 손실이 발생한다. 아울러 상부 슬래브 또는 포장 등의 교체 등에 의한 고정하중 변동으로 인하여 부재 상하부의 응력이 변화하게 된다. 이러한 응력의 변화는 부재의 안전성에 영향을 줄 경우가 있으며, 이 경우 프리스트레스 힘의 조절이 필요하다. 따라서 이 연구에서는 나사를 적용한 새로운 유형의 재긴장 포스트텐션 정착구를 제안하고, EAD160004 및 KCI-PS101에 규정된 하중전달시험을 통하여 하중에 대한 안전성과 변형률에 대한 안정성을 만족함을 구명하였다.

• 도시과학
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• 제11권2호
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• pp.19-24
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• 2022

Conventional RC beams for crossing small and medium-sized rivers do not have a cross-sectional area, so the floating debris is accumulated and disasters such as damage to bridges occur. To improve this, the PSC method was invented. However, this also had problems such as transverse curvature, increase in dead weight due to cross-sectional shape, and negative moment generated during serialization, so it was necessary to develop a new type of girder. Therefore, it was intended to propose a LIT(Leton Interaction Thrust) girder bridge that is safer and has better performance than the conventional PSC girder with improved section efficiency. Unlike existing girder bridges, the LIT girder has the feature that the change in the strands of the entire girder occurs only in the vertical direction when the first tension is applied because the tendon arrangement is symmetrical by applying the raised portion. In addition, slab continuation generates a secondary moment that is advantageous to the continuous point, effectively controlling the negative moment and preventing the corrosion of the tendon. The dimensions of the cross section were determined, and the arrangement of the strands was designed to conduct structural analysis and detailed analysis. As a result of the structural analysis, the stress of the girder showed results within the allowable compressive stress, and the deflection showed the result within the allowable deflection. showed results. In addition, a detailed analysis was performed to examine the stress distribution around the girder body and the anchorage area and the stress distribution of the embossed portion, and as a result, the stress of the girder body due to the tension force showed a stable level.

• Computers and Concrete
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• 제31권3호
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• pp.207-221
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• 2023

In this investigation, the interaction between opening space and neighboring joint has been examined by experimental test and Particle flow code in two dimension (PFC2D) simulation. Since, firs of all PFC was calibrated using Brazilian experimental test and uniaxial compression test. Secondly, diverse configurations of opening and neighboring joint were provided and tested by uniaxial test. 12 rectangular sample with dimension of 10 cm*10 cm was prepared from gypsum mixture. One quarter of tunnel and one and or two joint were drilled into the sample. Tunnel diameter was 5.5 cm. The angularities of joint in physical test were 0°, 45° and 90°. The angularities of joint in numerical simulation were 0°, 30°, 60°, -30°, -45°, -60° and its length were 2cm and 4cm. Loading rate was 0.016 m/s. Tensile strength of material was 4.5 MPa. Results shows that dominant type of crack which took place in the model was tensile cracks and or several shear bands develop within the model. The Final stress is minimum in the cases where oriented angle is negative. The failure stress decrease by decreasing the joint angle from 30° to 60°. In addition, the failure stress decrease by incrementing the joint angle from -30° to -60°. The failure stress was incremented by decreasing the number of notches. The failure stress was incremented by decreasing the joint length. The failure stress was incremented by decreasing the number of notches. Comparing experimental results and numerical one, showed that the failure stress is approximately identical in both conditions.

• 대한토목학회논문집
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• 제43권3호
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• pp.287-295
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• 2023

교량은 지진에 의해 붕괴가 일어나면 많은 수의 인명피해와 재산피해가 발생할 수 있어 정확한 지진거동 예측과 대비가 필요하다. 특히, 교각은 교량의 지진거동에 있어서 지배적인 역할을 한다. 또한, 교각의 겹침이음 길이 부족과 같은 설계적인 문제가 있다면 지진에 대한 위험성이 더욱 증대하게 된다. 본 연구에서는 교각에서 겹침이음 특성을 분석하기 위해, 겹침이음 길이가 부족한 교각의 수치해석 모델을 정의하고 실험데이터를 통해 검증하였다. 제시된 교각 모델을 일반적으로 사용되는 RC 슬래브 교량에 적용하였다. 교각의 비선형 정적해석을 수행하여 겹침이음에 따른 성능점 변화를 평가하였다. 또한, 지진취약도 곡선을 산정하여 교각의 겹침이음 길이에 따른 지진취약도 비교분석을 수행하였다.