• 한국구조물진단유지관리공학회 논문집
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• 제4권3호
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• pp.197-204
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• 2000

Tensile strength (stress) of bar splice is important in the research of mechanical behavior of reinforced concrete structures-beam, column etc.- with bar splice. The purpose of this research is to evaluate the flexural behavior - deflection of beam specimens, strain of main bars - of reinforced concrete beam with Lock Joint Coupler. To make a comparative research, reinforced concrete beam specimens with normal deformed bar and lap splice are tested and analyzed. Test results, Comparing a deflection of three types flexural specimens, a flexural specimen with Lock Joint Coupler is 40% greater than the other flexural specimens. At the center of flexural specimen, the strain of main bar(D29) with lock joint coupler is 50% less, and vice versa, at the point of 14cm far from the center of flexural specimen, the strain of main bar(D29) with lock joint coupler is 9% larger than the strain of main bar(D29) which calculated using the classical flexure theory. A discords, between a deflection behavior of the flexural specimens and a strain of the main bar, are caused by the difference of strain between the lock joint coupler and main bar, near the lock joint coupler. So, additional research is need to verify as stated above discords.

• Advances in concrete construction
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• 제14권5호
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• pp.331-339
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• 2022

Geopolymer concrete (GPC) is one of the best substitute materials for conventional concrete in construction. The conventional concrete provided by Portland cement has a detrimental influence on the environment during its production. In this study, the bond strength, which is an important structural property, of deformed steel bars with slag-based GPC was measured. In accordance with the ASTM C234 procedure, bond strength was measured on 18 specimens of slag-based GPC with three sizes of steel bars and different embedded lengths. Two groups of GPC specimens with different compressive strengths, which were cured under ambient conditions, were tested. The results indicated that the bar diameter has a great effect on the bond strength, and the bond strength behavior of the slag-based GPC is comparable with that of conventional concrete. The ACI-318 Code for the bond strength of ordinary Portland cement concrete can be used conservatively to determine the bond strength of the GPC reinforced with deformed steel bars.

• 한국재난정보학회 논문집
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• 제11권4호
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• pp.520-526
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• 2015

철근 콘크리트 구조에서 철근의 이음은 불가피하게 사용된다. 최근 들어 철근 콘크리트 구조물에 가장 많이 사용되고 있는 철근 이음에는 겹침 이음, 기계 이음, 그리고 용접 접합 등이 있다. 이중에서 저비용, 건설 현장에서의 실용성, 공사 기간 단축 및 고성능 등의 장점으로 인하여 가스 압접 이음의 효용성이 대두되고 있다. 그러나 가스 압접 이음 과정동안 철근이 열을 받게 되고 이는 접합부 주위에 잔류 응력으로 남아 철근의 피로수명에 영향을 미칠 수 있다. 그러므로 가스 압접 접합부의 명확한 잔류 응력 분석과 가스 압접 후 철근의 하중지지 능력을 확인하기 위한 인장 시험이 수행되어야 한다. 이 연구에서는 공용중인 철근(KS D3504 SD400)에 대하여 3차원 해석을 수행하여 연구 결과 잔류 응력은 상대적으로 작기 때문에 철근의 피로 수명에 영향을 미치지 않으며 인장 실험 결과에서도 가스 압접된 철근의 항복강도가 기준항복강도보다 높게 측정되어 하중 저항 능력도 가스 압접 이음부가 연속된 철근으로서의 거동에 충분히 그 성능을 발휘하는 것으로 나타났다.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2003년도 춘계학술대회 논문집
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• pp.1382-1385
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• 2003

Deformation on shapes of the hydrogen absorption metal in this paper was investigated on hydrogen absorption-desorption cycling. In order to study this problem, the cold rolled palladium plate and the cold extrusion palladium bar as specimens had been used. By using the electrochemical method, the palladium specimens were cyclically hydrogenated in the 0.1 mol H$_2$SO$_4$ electrolyte. As results, it is noted that the thickness of the plate specimen gradually increased in increasing hydrogenation cycles whereas the width and the length decreased. But both the diameter and the length of the bar specimen increased with increasing hydrogenation cycles. Also, grains in the plate specimen were greatly deformed after hydrogenation cycling whereas internal grains in the bar specimen were pulverized. And deterioration of the hydrogen absorption rate of the bar specimen was lager than the plate specimen.

• Structural Engineering and Mechanics
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• 제16권4호
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• pp.469-478
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• 2003

The primary aim of this study was to investigate the bond strength between reinforcement and concrete. Large sized nine beams, which were produced from concrete with approximately ${f_c}^{\prime}=30$ MPa, were tested. Each beam was designed to include two bars in tension, spliced at the center of the span. The splice length was selected so that bars would fail in bond, splitting the concrete cover in the splice region, before reaching the yield point. In all experiments, the variable used was the reinforcing bar diameter. In the experiments, beam specimens were loaded in positive bending with the splice in a constant moment region. In consequence, as the bar diameter increased, bond strength and ductility reduced but, however, the stiffnesses of the beams (resistance to deflection) increased. Morever, a empirical equation was obtained to calculate the bond strength of reinforcement and this equation was compared with Orangun et al. (1977) and Esfahani and Rangan (1998). There was a good agreement between the values computed from the predictive equation and those computed from equations of Orangun et al. (1977) and Esfahani and Rangan (1998).

• 한국산학기술학회논문지
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• 제12권6호
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• pp.2866-2871
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• 2011

본 연구에서는 생태축조블록을 적용한 보강토 옹벽의 국부적 안정성 검토에 필요한 보강재 인장력 계산법을 정립하고 국부적 안정성 검토와 관련한 주요 설계인자인 보강재와 블록 사이의 연결강도와 블록 접촉면 사이의 전단강도를 시험을 통해 규명하였다. 연결강도 시험결과에 따르면 생태축조블록의 내부를 흙으로 속채움하고 D13 이형철근을 사용할 경우 첨두 하중값은 이형철근의 허용인장력 정도임을 알 수 있었으며 D16 이형철근을 사용할 경우 첨두하중값은 허용인장력의 76% 정도였다. 생태축조블록의 내부를 콘크리트로 속채움하는 경우에 있어서 D10, D13 이형철근을 사용하였을 때의 연결강도는 각각의 이형철근의 허용인장력보다 크게 나타났다. 생태축조블록의 접촉면 전단시험결과를 통해 구한 전단저항 매개변수인 ${\alpha}_u$는 1.7kN/m 이었고 ${\lambda}_u$는 $27.6^{\circ}$ 이었다.

• 콘크리트학회지
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• 제6권4호
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• pp.153-160
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• 1994

본 연구는 용접철망을 사용한 반두께 프리캐스트 콘크리트 슬래브의 휨내력 평가 및 연성능력 검토를 위하여 총 10개의 일방향 반두께 프리캐스트 콘크리트 슬래브를 제작하여 2점 단순 재하를 하였다. 주요변수로서는 상부콘크리트 압축강도, 반두께 슬래브의 표면거칠기, 그리고 인장철근비로 구성되었으며, 실험결과는 다음과 같다. 반두께 프리캐스트 콘크리트 슬래브의 휨설계는 국내 극한강도 설계법에 의한 슬래브 설계방식의 사용이 가능한 것으로 나타났다. 슬래브에 $4000kg/cm^2$이상의 용접철망을 사용할 경우 기존의 규준에 따라 항복응력도를 변형율 0.0035에 해당하는 응력도를 사용하는 것이 안정적인 것으로 나타났다. 용접철망을 사용한 슬래브의 경우 철근 콘크리트 연성평가에 따라 분석한 결과 연성부담능력이 저하되어 용접철망을 경우에는 연성증진을 위한 일반철근을 혼용하는 것이 바람직한 것으로 판단된다.

• Smart Structures and Systems
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• 제17권4호
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• pp.593-610
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• 2016

In this study, an innovative and smart glass fiber-reinforced polymer (GFRP) hybrid bar was developed for stronger durability of concrete structures. As comparing with the conventional GFRP bar, the smart GFRP Hybrid bar can promise to enhance the modulus of elasticity so that it makes the cracking reduced than the case when the conventional GFRP bar is used. Besides, the GFRP Hybrid bar can effectively resist the corrosion of conventional steel bar by the GFRP outer surface on the steel bar. In order to verify the bond performance of the GFRP hybrid bar for structural reinforcement, uniaxial pull-out test was conducted. The variables were the bar diameter and the number of strands and pitch of the fiber ribs. Tensile tests showed a excellent increase in the modulus of elasticity, 152.1 GPa, as compared to that of the pure GFRP bar (50 GPa). The stress-strain curve was bi-linear, so that the ductile performance could be obtained. For the bond test, the entire GFRP hybrid bar test specimens failed in concrete splitting due to higher shear strength resulting in concrete crushing as a function of bar deformation. Investigation revealed that an increase in the number of strands of fiber ribs enhanced the bond strength, and the pitch guaranteed the bond strength of 19.1 mm diameter hybrid bar with 15.9 mm diameter of core section of deformed steel the ACI 440 1R-15 equation is regarded as more suitable for predicting the bond strength of GFRP hybrid bars, whereas the CSA S806-12 prediction is considered too conservative and is largely influenced by the bar diameter. For further study, various geometrical and material properties such as concrete cover, cross-sectional ratio, and surface treatment should be considered.

• 콘크리트학회지
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• 제22권5호
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• pp.28-36
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• 2010

• 한국전기전자재료학회논문지
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• 제23권6호
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• pp.458-463
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• 2010

MLCC (multi-layer ceramic capacitor) is usually fabricated by lamination of predetermined number of single layers. Often, the state of MLCC before sintering is called the green state, whose strength comes from the adhesion between the dielectric material and the polymer binder. Therefore the lamination of a single layer before sintering can be easily deformed by environment due to the relatively lower strength. After the compression process, which helps single sheets cohereto with adjacent sheets, the MLCC green bar is preheated to resolve the probable internal stress. Unfortunately, unexpected deformation after preheating resulted in problems during cutting of the MLCC green bar. In this study, one of 2 primary hypotheses which were proposed to resolve the unexpected deformation after preheating was examined by quantitative experiment with GC/MS (gas chromatograpy/mass spectrometer). The proportion of deformation caused by DOP evaporation, which was primarily evaporated componet during preheating, to the total deformation of the MLCC green bar was found to be 53%.