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http://dx.doi.org/10.11112/jksmi.2021.25.2.43

Jacking Force and Camber for Precast Concrete Slab Reinforcing  

Lho, Byeong-Cheol (Department of Civil Engineering, Sangji University)
Publication Information
Journal of the Korea institute for structural maintenance and inspection / v.25, no.2, 2021 , pp. 43-48 More about this Journal
Abstract
Precast concrete can be used to reduce construction period and enhance construct ability. However structural problems could be occurred due to the wrong application of boundary condition and misunderstanding of structural behavior in the process of segmentation of original structure system. I experienced a serious deflections and cracks due to the increase of bending moment and creep after the construction of precast concrete slab, and we learned that this is from the misunderstanding of support conditions and structure behaviors of precast slab panel. Two support columns under the precast slab are inserted to reduce the bending moment, and the camber according to jacking force should be estimated for the structural safety during the reinforcing work. A proper support condition and the flexural stiffness of precast concrete slab were applied to check the deflection and crack for existing structure by inverse analysis, and we can estimate the camber according to jacking force of the precast concrete slab, and suggest a method to make safe structure.
Keywords
Precast concrete slab; Deflection; Crack; Camber; Jacking force;
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  • Reference
1 Timoshenko S. P., and Gere, J. M. (1972), Mechanics of Materials, Tower Press, 176-181.
2 Ministry of Land, Transportation and Maritime Affairs (2012), Design Specification of Concrete Structures, 70-302. Korea Concrete Institute.
3 Midas IT, Structural Analysis, MIDASIT Co. Ltd. (2020), https://kor.midasuser.com/emergency/kr/support2.html
4 Lee, K. M., Lee, S. K., and Lee, J. H. (2012), Serviceability, Durability and Crack Control, Magazine of the Korea Concrete Institute, 24(1), 24-28.   DOI
5 MacGregor J. G., and Wight, J. K. (2005), Reinforced Concrete Mechanics and Design, 4th Edition, Prentice Hall, 393-419
6 Ahn, J. O., and Seo, Y. G., (2007), Reinforced Concrete Design, SciTech, 214-216.
7 Kim, C. G et al. (2013), Shear Strength of Hybrid Beams Combining Precast Concrete and Cast-In-Place Concrete, Journal of the Korea Concrete Institute, 25(2), 175-185.   DOI
8 Choi, H. J., Lee, H. J., Yoon, S. S., and Jong, S. (2010), An Analytical Study on the Behavior of Slab Structure Considering the Remodeling, Journal of the Korea Institute for Structural Maintaenance Inspection, 14(2), 106-111.
9 Wang, C., and Salmon, C. S. (1998), Reinforced Design 6th Edition, Addison-Wesley, 320.