• Title/Summary/Keyword: 콘크리트 경계면

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Inverstigation of Maximum Strength and Effective Bonding Length at the Interface between Concrete and FRP Materials under Freeze-thaw Cycles and Applied Different Bonding Materials (동결융해 및 부착재료 변화에 따른 FRP-Concrete 경계면의 최대 부착강도 및 유효부착길이 평가)

  • Kim, Sung-Hoon;Jung, Woo-Young;Choi, Hyun-Kyu
    • Proceedings of the Korea Concrete Institute Conference
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    • 2010.05a
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    • pp.435-436
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    • 2010
  • This research presents two important factors; first, the advanced design equation of effective bonding length at the interface between concrete and FRP materials is proposed when different bonding materials are applied and secondly maximum bonding strength between concrete-FRP bonding surface is evaluated under Freeze-thaw cycles.

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Evaluation of Crack Width Based on the Actual Bond Stress-Slip Relationship in Structural Concrete Members (부착응력-미끌림 관계에 기반한 철근콘크리트 부재의 균열폭 산정)

  • Kim, Woo;Lee, Ki-Yeol;Kim, Jang-Hyun
    • Journal of the Korea Concrete Institute
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    • v.18 no.1 s.91
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    • pp.91-100
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    • 2006
  • This paper presents an analytical model for evaluation of crack widths in structural concrete members. The model is mathematically derived from the actual bond stress-slip relationships between the reinforcement and the surrounding concrete, and the relationships summarized in CEB-FIP Model Code 1990 are employed in this study together with the assumption of a linear slip distribution along the interface at the stabilized cracking stage. With these, the actual strains of the steel and the concrete are integrated respectively along the embedment length between the adjacent cracks so as to obtain the difference in the axial elongation. The model is applied to the test specimens available in literatures, and the predicted values are shown to be in good agreement with the experimentally measured data.

Damage of Overlaid Concrete Structures Subjected In Thermally Transient Condition by Rainfall (강우에 따른 콘크리트 덧씌우기 보수체의 손상에 관한 연구)

  • 윤우현
    • Journal of the Korea Concrete Institute
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    • v.13 no.5
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    • pp.491-498
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    • 2001
  • The failure phenomenon of overlaid concrete structures, such as surface crack and peel-off failure in the contact zone, was investigated due to temperature shock(rainfall). To investigate this failure phenomenon, the surface tensile stress, and the shear stress, the vertical tensile stress in the contact zone were analysed using the non-linear stress-strain relationship of material such as strain-hardening- and strain-softening diagrams. Rainfall intensity, overlay thickness and overlay material were the main variables in the analyses. It is assumed that the initial temperature of overlaid concrete structures was heated up to 55$\^{C}$ by the solar heat. With a rain temperature 10$\^{C}$ and the rainfall intensity of nR=1/a, tR=10min, 60min, the stress states of overlaid concrete structures were calculated. The result shows that only fictitious cracks occurred in the overlay surface and no shear bond failure occurred in the contact zone. The vortical tensile stress increasing with overlay thickness was proved to be the cause of peel-off failure in the contact zone. The formulae for relationship between the vertical tensile stress and overlay thickness, material properties were derived. Using this formulae, it is possible to select proper material and overlay thickness to prevent failure in the contact zone due to temperature shock caused by rainfall.

Crack Width Calculation Based on Bond Characteristics and Cracking Behavior of Reinforced Concrete Structures (부착특성과 균열거동을 고려한 철근콘크리트 구조물의 균열폭 계산)

  • Yang, Jun-Ho;Kim, Woo;Lee, Gi-Yeol
    • Journal of the Korean Society for Railway
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    • v.12 no.6
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    • pp.944-952
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    • 2009
  • This paper presents an analytical model for calculation of crack widths in reinforced concrete structures. The model is mathematically derived from the actual bond stress-slip relationships between the reinforcement and the surrounding concrete, and the relationships summarized in CEB-FIP Model Code 1990 and Eurocode 2 are employed in this study together with the numerical analysis result of a linear slip distribution along the interface at the stabilized cracking stage. With these, the actual strains of the steel and the concrete are integrated respectively along the embedment length between the adjacent cracks so as to obtain the difference in the axial elongation. The model is applied to the test results available in literatures, and the predicted values are shown to be in good agreement with the experimentally measured data.

Modeling of Tension Stiffening Effect Based on Nonlinear Bond Characteristics in Structural Concrete Members (비선형 부착 특성에 기반한 철근콘크리트 부재의 인장증강효과 모델)

  • Lee, Gi-Yeol;Ha, Tae-Gwan;Kim, Woo
    • Journal of the Korea Concrete Institute
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    • v.19 no.6
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    • pp.745-754
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    • 2007
  • This paper presents a unified modeling technique for tension stiffening effect in structural concrete members. The model is mathematically derived from the bond stress-slip relationships which account for splitting crack. The relationships in CEB-FIP Model Code 1990 and Eurocode 2 are employed together with the assumptions of a linear slip distribution along the interface and the uniform condition of concrete tensile contribution for the mid section of cracked member at the stabilized cracking stage. With these assumptions, a model of tension stiffening effect is proposed by accounting for the force equilibrium and strain compatibility condition associated to the steel strain and concrete contribution by bond stress. The model is applied to the test results available in literatures, and the predicted values are shown to be in good agreement with the experimentally measured behavior.

Damage of Overlaid Concrete Structures Subjected to Humidity Changes in the Atmosphere (습도 변화에 따른 콘크리트 덧씌우기 보수체의 손상분석)

  • 윤우현
    • Journal of the Korea Concrete Institute
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    • v.14 no.5
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    • pp.766-773
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    • 2002
  • The failure phenomenon of overlaid concrete structures, such as surface crack, and peel-off failure, shear bond failure in the end contact zone, was investigated due to humidity changes. To investigate this failure phenomenon, the surface tensile stress, and the shear stress, the vertical tensile stress in the contact zone were analysed using the non-linear stress-strain relationship of material such as strain-hardening- and strain-softening diagrams. Overlay thickness and overlay material were the main variables in the analyses. It is assumed that the initial surface humidity of overlaid concrete structures was 100% r.H. With a atmospheric humidity of 55% r.H. and two load cases for drying(LCI), curing and drying(LC2), the stress states of overlaid concrete structures were calculated. The result shows that only fictitious cracks occurred in the overlay surface of CM2O, ECM25, and no shear bond failure occurred in the contact zone without CM2O. The peel-off failure was proved to be the main cause of the damage in the overlaid concrete structures. Only for overlay thickness of 1cm occurred no peel-off failure in the case of drying after a long-term public use(LC1). In the case of curing and drying during overlay work(LC2) occurred the peel-off failure within 1.5days for all the overlaid concrete structures.

Influence of the Lateral Pressure on the Interface Shear Transfer of Concrete (콘크리트의 경계면 전단 전달에 대한 측압의 영향)

  • 이재혁;김상식;최영규
    • Proceedings of the Korea Concrete Institute Conference
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    • 1995.10a
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    • pp.278-283
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    • 1995
  • In this study, the influence of the lateral pressure on the interface shear transfer of concrete has been investigated experimentally. A total of 21 specimens has been tested at the laboratory. The lateral pressure intensities in the tests have been taken as 0, 7, 14, 28, and 35kg/$\textrm{cm}^2$ for the specimens, the compressive strengths of which are either 180, 400 or 550kg/$\textrm{cm}^2$. The linear regression analysis based on the test results has shown relatively good agreements with the values given in the shear friction theory.

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Seismic Analysis of RC Subway Station Structures Using Finite Element Method (유한요소법을 이용한 철근콘크리트 지하철 정거장 구조물의 내진 해석)

  • Nam, Sang-Hyeok;Song, Ha-Won;Byun, Keun-Joo
    • Journal of the Korea Concrete Institute
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    • v.15 no.2
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    • pp.225-233
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    • 2003
  • Even though a lot of advanced researches on analysis, design, and performance evaluation of reinforced concrete (RC) under seismic action have been carried out, there has been only a few study on seismic analysis of underground RC structures surrounding soil medium. Since the underground RC structures interact with surrounding soil medium, a path-dependent soil model which can predict the soil response is necessary for analyzing behavior of the structure inside soil medium. The behavior of interfacial zone between the RC structure and the surrounding medium should be also considered for more accurate seismic analysis of the RC structure. In this paper, an averaged constitutive model of concrete and reinforcing bars for RC structure and path-dependent Ohsaki's model for soil are applied, and an elasto-plastic interface model having thickness is proposed for seismic analysis of underground RC structures. A finite element analysis technique is developed by applying aforementioned constitutive equations and is verified by predicting both static and dynamic behaviors of RC structures. Then, failure mechanisms of underground RC structure under seismic action are numerically derived through seismic analysis of underground RC station structure under different seismic forces. Finally, the changes of failure mode and the damage level of the structures are also analytically derived for different design cases of underground RC structures.

Estimation of Bond Performance Improvement by Surface Treatment Equipments and Polymer Content by Boned Concrete Overlays (접착식 콘크리트 덧씌우기 경계면 처리 방식 및 폴리머 혼입률에 따른 부착성능 평가)

  • Jung, Won Kyong;Kim, Hyun Seok;Kwon, Oh Seon;Kim, Hyung Bae
    • KSCE Journal of Civil and Environmental Engineering Research
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    • v.36 no.1
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    • pp.39-47
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    • 2016
  • Repair methods of aging concrete pavement are generally used composite structure pavements, such a composite structure is subjected to a large impact on the mechanical behavior and ensure long-term commonality integrated under vehicle loads, environmental loads of the public in accordance with the bond strength between old and new concrete. A common of bonded concrete overlays that are currently available is Interface arrangements using a variety of equipment to ensure the excellent bond strength between old and new concrete than standard concrete, mixed with a material such as a polymer in order to improve the adhesion with the material itself. However, these method of constructions are being applied, depending on the developer site presents no special specifications apply when a specific application criteria objectively, this is due to the situation of each individual method, which is based on the difficulty in quality control of the site manager. In this study by performing a field test for polymer content via the variables that contribute most significantly to ensure bond strength and the field element core of the interface processing method and materials to ensure bond strength between the old and the new concrete, it was to derive the construction site construction method that can improve the performance of the bond strength through a review of the construction around the correlations and the bond strength according to the effective performance analysis of the conventional surface treatment process and variation of polymer volume fraction.

Investigation of Pile Behaviour according to Interface Properties - Comparison between Pile Model Test Using Close Range Photogrammetry and Numerical Analysis (경계면 물성치에 따른 말뚝 거동 분석 - 근거리 사진계측을 이용한 모형시험과 수치해석 비교)

  • Lee, Jung-Min;Lee, Yong-Joo
    • Journal of the Korean Geotechnical Society
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    • v.30 no.9
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    • pp.29-39
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    • 2014
  • In this study, model pile-load test with numerical analysis was carried out to compare and analyze pile behaviour according to interface properties. In the model test, Close Range Photogrammetry (CRP) was chosen to measure the ground deformation. In addition, model steel and concrete piles were used. Based on the model pile test, interface elements around the model pile were used to simulate the slip effect. Interface properties were adopted as interface reduction factor $R_{inter}$. Interface reduction factor, $R_{inter}$ plays a key role in the interface properties. Through this study, it was found that the model ground behaviour measured by CRP corresponded well to the one predicted by the numerical analysis. And, the interface strength reduction factor, $R_{inter}$ value of the steel pile was higher than that of the concrete pile.