• Title/Summary/Keyword: 슬래브 시공하중

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Analytical study for effects of shoring stiffness and slab cracking on construction loads of flat plates (플랫 플레이트 시공하중에 대한 동바리 강성 및 슬래브 균열 효과 분석)

  • Kim, Jae-Yo;Hwang, Hyeon-Jong;Park, Hong-Gun;Hong, Geon-Ho;Lim, Joo-Hyuk;Kim, Yong-Nam
    • Proceedings of the Computational Structural Engineering Institute Conference
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    • 한국전산구조공학회 2009년도 정기 학술대회
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    • pp.438-441
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    • 2009
  • 휨강성이 작은 바닥시스템인 플랫 플레이트 구조는 응력조건 뿐만 아니라 사용성조건에 의하여 구조적 성능이 결정될 수 있으며, 특히 과도한 시공 하중의 작용은 시공 중 안전성에 대한 단기적인 손상 뿐만 아니라 사용성에 관련된 장기적인 손상을 발생시킬 수 있다. 이러한 플랫 플레이트의 시공하중은 동바리지지 층 수, 시공주기, 슬래브 콘크리트의 재료적인 강성 뿐만 아니라, 동바리의 강성과 슬래브에 발생하는 균열에 의한 영향에 의하여 결정된다. 본 논문에서는 다양한 설계조건에 대한 해석연구를 통하여, 동바리-슬래브의 강성비 변화 및 콘크리트 균열에 의한 단면강성저하가 슬래브들 간의 하중 분포에 미치는 영향을 분석하고, 이러한 동바리 강성 및 슬래브 균열의 영향을 고려한 시공하중 산정법을 제안한다.

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Slab Construction Load Distribution in a Multistory-shored RC Structure System with Different Slab Thickness (슬래브 두께가 다른 다층지지 RC 구조 시스템에서의 슬래브 시공 하중 분포)

  • Sang-Min Han;Jae-Yo Kim
    • Journal of the Korea institute for structural maintenance and inspection
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    • 제28권2호
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    • pp.17-26
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    • 2024
  • In recent times, accidents involving structural elements, formwork, and shore have been persistently occurring during concrete pouring, especially in multi-story reinforced concrete (RC) structures. In previous studies, research on construction load analysis was mainly conducted for cases where the thickness of all slabs is constant. However, when the thickness of some slabs is different, the variation in the stiffness of slab cross-sections can lead to different distributions of construction loads, necessitating further investigation. In this study, the slab thickness was set as a variable, and the analysis of the distribution of construction loads was conducted, taking into account the influence of changes in slab thickness on the concrete stiffness and structure. It was confirmed that not only the concrete material stiffness but also the slab cross-section stiffness should be considered in the estimation of construction loads when the slab thickness changes. As the slab thickness increases, the maximum construction load and maximum damage parameter on the layer with increased thickness significantly increase, and it was observed that a thicker slab results in a higher proportion of construction load.

Measurement and Prediction of Long-term Deflection of Flat Plate Affected by Construction Load (시공하중에 의한 플랫 플레이트의 장기처짐 계측 및 해석)

  • Hwang, Hyeon-Jong;Park, Hong-Gun;Hong, Geon-Ho;Kim, Jae-Yo;Kim, Yong-Nam
    • Journal of the Korea Concrete Institute
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    • 제26권5호
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    • pp.615-625
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    • 2014
  • Excessive long-term slab deflection caused by construction load is a critical issue for the design of concrete slabs, as long span flat plates become popular for tall buildings. In the present study, the effect of construction load causing early slab cracking on the long-term deflection was theoretically studied. On the basis of the result, a numerical analysis method was developed to predict the long-term deflection of flat plates. In the proposed method, immediate deflection due to slab cracking and long-term effect of creep and shrinkage were considered. To verify the construction load effect, long-term slab deflections were measured in actual flat plate buildings under construction. The results showed that the immediate deflection due to the construction load increased significantly the long-term deflection. The proposed method was used to predict the deflections of the buildings. The results were compared with the measurement results. The predictions agree well with the long-term deflections of flat plate affected by construction load.

Effects of Shore Stiffness and Concrete Cracking on Slab Construction Load I: Theory (슬래브의 시공하중에 대한 동바리 강성 및 슬래브 균열의 영향 I: 이론)

  • Hwang, Hyeon-Jong;Park, Hong-Gun;Hong, Geon-Ho;Im, Ju-Hyeuk;Kim, Jae-Yo
    • Journal of the Korea Concrete Institute
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    • 제22권1호
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    • pp.41-50
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    • 2010
  • Long-term floor deflection caused by excessive construction load became a critical issue for the design of concrete slabs, as a flat plate is becoming popular for tall buildings. To estimate the concrete cracking and deflection of an early age slab, the construction load should be accurately evaluated. The magnitude of construction load acting on a slab is affected by various design parameters. Most of existing methods for estimating construction load addressed only the effects of the construction period per story, material properties of early age concrete, and the number of shored floors. In the present study, in addition to these parameter, the effects of shore stiffness and concrete cracking on construction load were numerically studied. Based on the result, a simplified method for estimating construction load was developed. In the proposed method, the calculation of construction load is divided to two steps: 1)Onset of concrete placement at a top slab. 2)Removal of shoring. At each step, the construction load increment is distributed to the floor slabs according to the ratio of slab stiffness to shore stiffness. The proposed method was compared with existing methods. In a companion paper, the proposed method will be verified by the comparison with the measurements of actual construction loads.

Parametric Study on Slab Construction Loads in Multistory-shored RC Structures Including Non-typical Stories with Different Slab Thicknesses (슬래브 두께가 다른 비기준층을 포함한 다층지지 RC 구조에서의 슬래브 시공 하중에 대한 변수 연구)

  • Sang-Min Han;Jae-Yo Kim
    • Journal of the Computational Structural Engineering Institute of Korea
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    • 제37권4호
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    • pp.243-250
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    • 2024
  • Recently, accidents involving structural elements, formwork, and shore have occurred continuously during concrete pouring, especially in multistory-shored RC structure systems with non-typical stories with increased slab thicknesses. In previous studies, an analysis was conducted on the stiffness of concrete and distribution of slab construction loads when some slab thicknesses were increased under the same conditions. This study analyzed the construction load, construction damage parameter, and shoring force by varying the construction conditions, such as the construction period and number of shores, as well as the design conditions, such as the thickness increment and number of thickness increment slabs, in a multistory-shored RC structure system with non-typical stories with increased slab thickness.

Effects of Shore Stiffness and Concrete Cracking on Slab Construction Load II: Measurements and Comparisons (슬래브의 시공하중에 대한 동바리 강성 및 슬래브 균열의 영향 II: 계측 및 비교)

  • Hwang, Hyeon-Jong;Hong, Geon-Ho;Park, Hong-Gun;Kim, Yong-Nam;Kim, Jae-Yo
    • Journal of the Korea Concrete Institute
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    • 제22권1호
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    • pp.51-58
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    • 2010
  • In a companion paper, a simplified method for the evaluation of the slab construction load was developed. Unlike existing methods, the proposed method includes the effects of shore stiffness and concrete cracking on the construction load. In the present study, construction loads were measured in actual flat-plate slabs. For verification, the measured shore-forces were compared with the predictions by the proposed method and existing methods. Further, the proposed method was applied to a wall-slab structure, and the prediction results were compared with the measurements. The comparison results showed that the proposed method well predicted the construction loads, furthermore it gave better predictions than the existing methods did.

Analysis of Weight Reduction Effect of Void Slab on Long and Short Term Deflections of Flat Plates (플랫 플레이트의 장단기 처짐에 대한 중공 슬래브의 자중저감 효과 분석)

  • Kim, Jae-Yo
    • Journal of the Computational Structural Engineering Institute of Korea
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    • 제30권4호
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    • pp.343-350
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    • 2017
  • The RC flat plate system has benefits such as a short construction time, an improvement of workability and a floor height reduction. In the case of long span slab, cracking damages and large deflections tend to occur due to the low flexural stiffness of flat plates. Specially, over-loading by self-weight of slab during construction increases short and long-term deflections. These problems may be solved by the use of void slab that has benefits of the reduced self-weight. In this study, to analyze an effect of self-weight reduction of void slab on slab deflections, the parametric study is performed. Including variable conditions such as a concrete strength, a slab construction cycle, the number of shored floors, a compressive reinforcement ratio and a tensile reinforcement ratio, slab construction loads and deflections are calculated by considering the construction stages, concrete cracking, and long-term effects. The short-term deflections during construction and the long-term deflections after construction of both of normal and void slabs are compared and the effects of void slab on the reduction of slab deflections are analyzed.

A Study on Effect Factor of Load Transfer Efficiency in Concrete Pavement (콘크리트포장에서 하중전달효과 영향인자 연구)

  • Yang, Hong-Suk;Suh, Young-Chan;Kwon, Soo-Ahn
    • International Journal of Highway Engineering
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    • 제3권3호
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    • pp.147-158
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    • 2001
  • One of the most important factors accounting for the structural capacity of concrete pavement is load transfer efficiency. Load transfer efficiency is affected by slab temperature gradient, construction of dowel bars, degree of aging, and crack width. The purpose of this study is to determine the patterns of load transfer efficiency of concrete pavement; to determine the factors that affect the load transfer efficiency; and to present the proper measuring method of load transfer efficiency. As a result from this study, load transfer efficiency was affected primarily by the average temperature in concrete slab. Load transfer efficiency decreased with decreasing temperature and increasing crack width. For the sections with dowel bars, there were little differences in load transfer efficiency regardless of temperature changes. For the sections without dowel bars, however, there on great losses of load transfer efficiency at low temperatures. For the old pavement, even in the sections with dowel bars, the load transfer efficiency reduced as the temperature dropped For the sections in this study, 1.4% reduction of the load transfer efficiency was observed for each $1^{\circ}C$ drop in the slab temperature.

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Analysis of Effects of Reshoring Works on Short and Long Term Deflections of Flat Plates (플랫 플레이트 구조의 장단기 처짐 제어에 대한 동바리 재설치 작업의 효과 분석)

  • Kim, Jae-Yo;Park, Soo-Beom
    • Journal of the Korea institute for structural maintenance and inspection
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    • 제21권1호
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    • pp.40-48
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    • 2017
  • RC flat plates may be governed by a serviceability as well as a strength condition, and a construction sequence and its impact on the distributions of gravity loads among slabs tied by shores are decisive factors influencing short and long term behaviors of flat plate. Over-loading and tensile cracking in early-aged slabs significantly increase the deflection of a flat plate system under construction, and a reshoring work may be helpful in reducing slab deflections by controlling the vertical distributions of loads in a multi-shored flat plate system. In this study, a effect of reshoring works on short and long term deflections of flat plate systems are analyzed. The slab construction loads with various reshoring schemes and slab design and construction conditions are defined by a simplified method, and the practical calculation of slab deflections with considering construction sequences and concrete cracking and long term effects is applied. From parametric studies, the reshoring works are verified to reduce slab deflections, and the optimized conditions for the reshoring works and slab design and constructions are discussed.

Parametric Study on Long-Term Deflections of Flat Plates Considering Effects of Construction Loads and Cracking (시공하중 및 균열 효과를 고려한 플랫 플레이트의 장기 처짐에 대한 변수 연구)

  • Choi, Seung Min;Eom, Tae Sung;Kim, Jea Yo
    • Journal of the Korea institute for structural maintenance and inspection
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    • 제16권1호
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    • pp.44-54
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    • 2012
  • The structural designs of RC flat plates that have no flexural stiffness by boundary beams may be governed not by strength conditions but by serviceabilities. Specially, since over-loading and tensile cracking in early-aged slabs significantly increase the immediate and long-term deflections of a flat plate system, a construction sequence and its impact on the slab deflections may be decisive factors in designs of flat plate systems. In this study, the procedure of calculating slab deflections with considering construction sequences, concrete cracking, and long-term effects is proposed. Using the proposed method, the parametric study for deflections of flat plates is performed. With various conditions for slab construction cycle, the number of shored floors, tensile or compressive reinforcement ratio, compressive strength of concrete, construction live load, and slab thickness, the immediate deflection during construction and long-term deflections after completion are analyzed. The calculated results are compared with the serviceability limits offered by the structural design code.