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      KCI등재 SCIE SCOPUS

      Minimum thickness of flat plates considering construction load effect

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      https://www.riss.kr/link?id=A105960296

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      다국어 초록 (Multilingual Abstract)

      In the construction of flat plate slabs, which are widely used for tall buildings but have relatively low flexural stiffness, serviceability problems such as excessive deflections and cracks are of great concern. To prevent excessive deflections at se...

      In the construction of flat plate slabs, which are widely used for tall buildings but have relatively low flexural stiffness, serviceability problems such as excessive deflections and cracks are of great concern. To prevent excessive deflections at service load levels, current design codes require the minimum slab thickness, but the requirement could be unconservative because it is independent on loading and elastic modulus of concrete, both of which have significant effects on slab deflections. In the present study, to investigate the effects of the construction load of shored slabs, reduced flexural stiffness and moment distribution of early-age slabs, and creep and shrinkage of concrete on immediate and time-dependent deflections, numerical analysis was performed using the previously developed numerical models. A parametric study was performed for various design and construction conditions of practical ranges, and a new minimum permissible thickness of flat plate slabs was proposed satisfying the serviceability requirement for deflection. The proposed minimum slab thickness was compared with current design code provisions and numerical analysis results, and it agreed well with the numerical analysis results.

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      참고문헌 (Reference)

      1 김재요, "플랫 플레이트 시스템의 처짐에 대한 시공 중 과하중의 영향 평가를 위한 실용해석 기법의 적용" 한국전산구조공학회 22 (22): 25-34, 2009

      2 강성훈, "시공 하중의 영향을 받는 플랫 플레이트의 최소 두께" 한국콘크리트학회 15 (15): 650-661, 2003

      3 Scanlon, A., "Unified span-to-depth ratio equation for non-prestressed concrete beams and slabs" 103 (103): 142-148, 2006

      4 Hwang, H. J., "Time-dependent deflection of slab affected by construction load" 113 (113): 557-566, 2016

      5 Carino, N. J., "Temperature effects on strength-maturity relations of mortar" 80 (80): 177-182, 1983

      6 Vollum, R. L., "Slab deflections in the cardington in-situ concrete frame building" 54 (54): 23-34, 2002

      7 Park, H., "Slab construction load affected by shore stiffness and concrete cracking" 108 (108): 679-688, 2011

      8 김재요, "Simulations of short- and long-term deflections of flat plates considering effects of construction sequences" 국제구조공학회 62 (62): 477-485, 2017

      9 Hossain, T. R., "Prediction of slab deflections and validation against cardington data" 152 (152): 235-248, 2002

      10 AIK, "Korean Building Code"

      1 김재요, "플랫 플레이트 시스템의 처짐에 대한 시공 중 과하중의 영향 평가를 위한 실용해석 기법의 적용" 한국전산구조공학회 22 (22): 25-34, 2009

      2 강성훈, "시공 하중의 영향을 받는 플랫 플레이트의 최소 두께" 한국콘크리트학회 15 (15): 650-661, 2003

      3 Scanlon, A., "Unified span-to-depth ratio equation for non-prestressed concrete beams and slabs" 103 (103): 142-148, 2006

      4 Hwang, H. J., "Time-dependent deflection of slab affected by construction load" 113 (113): 557-566, 2016

      5 Carino, N. J., "Temperature effects on strength-maturity relations of mortar" 80 (80): 177-182, 1983

      6 Vollum, R. L., "Slab deflections in the cardington in-situ concrete frame building" 54 (54): 23-34, 2002

      7 Park, H., "Slab construction load affected by shore stiffness and concrete cracking" 108 (108): 679-688, 2011

      8 김재요, "Simulations of short- and long-term deflections of flat plates considering effects of construction sequences" 국제구조공학회 62 (62): 477-485, 2017

      9 Hossain, T. R., "Prediction of slab deflections and validation against cardington data" 152 (152): 235-248, 2002

      10 AIK, "Korean Building Code"

      11 Branson, D. E., "Instantaneous and Time-Dependent Deflections of Simple and Continuous Reinforced Concrete Beams" Alabama Highway Research Department, Bureau of Public Roads 1-78, 1963

      12 El-Shahhat, A. M., "Improved analysis of shore-slab Iiteraction" 89 (89): 528-537, 1992

      13 Park, H., "Immediate and long-term deflections of reinforced concrete slab affected by early-age loading and low temperature" 109 (109): 413-422, 2012

      14 CEN, "Eurocode 2: Design of Concrete Structures-Part 1-1: General Rules and Rules for Buildings"

      15 Corley, W. G., "Equivalent frame analysis for slab design" 67 (67): 875-884, 1970

      16 Gardner, N. J., "Effects of high construction loads on the long-term deflections of flat slabs" 84 (84): 349-360, 1987

      17 Bischoff, P. H., "Effective moment of inertia for calculating deflections of concrete members containing steel reinforcement and fiber-reinforced polymer reinforcement" 104 (104): 68-75, 2007

      18 Lee, J. I., "Effect of early age loading on time-dependent deflection and shrinkage restraint cracking of slabs with low reinforcement ratios" SP-246-9 : 149-166, 2007

      19 Firky, A. M., "Development of a model for the effective moment of inertia of one-way reinforcement concrete elements" 95 (95): 444-455, 1988

      20 Mosallam, K. H., "Determining shoring loads for reinforced concrete construction" 88 (88): 340-350, 1991

      21 Hossain, T. R., "Deflection estimation of reinforced concrete flat plates using ACI method" 108 (108): 405-413, 2011

      22 Gilbert, R. I., "Deflection calculation for reinforced concrete structures-why we sometimes get it wrong" 96 (96): 1027-1033, 1999

      23 Grundy, P., "Construction loads on slabs with shored formwork in multistory buildings" 60 (60): 1729-1738, 1963

      24 Liu, X., "Construction load analysis for concrete structures" 111 (111): 1019-1036, 1985

      25 Mehta, P. K., "Concrete Microstructure, Properties, and Materials" McGraw-Hill 2006

      26 Lee, Y. H., "Comparison of one-and two-way slab minimum thickness provisions in building codes and standards" 107 (107): 157-163, 2010

      27 CEB-FIP, "CEB-FIP Model Code 1990: Design Code" Euro-International Committee for Concrete 1993

      28 "ACI Committee 347, Guide for Shoring/Reshoring of Concrete Multistory Buildings (ACI 347.2R-05)"

      29 "ACI Committee 318, Building Code Requirements for Structural Concrete and Commentary (ACI 318-14)"

      30 "ACI Committee 209 , Prediction of Creep, Shrinkage, and Temperature Effects in Concrete Structures (ACI 209R-92)"

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