C. Ghaleb, A., A. Jennam, M. (2015). Optimum Design of Reinforced Concrete Flat Slabs. Alustath, 33(9A), 2049-2065. doi: 10.30684/etj.2015.116225
Alaa C. Ghaleb; Mohammed A. Jennam. "Optimum Design of Reinforced Concrete Flat Slabs". Alustath, 33, 9A, 2015, 2049-2065. doi: 10.30684/etj.2015.116225
C. Ghaleb, A., A. Jennam, M. (2015). 'Optimum Design of Reinforced Concrete Flat Slabs', Alustath, 33(9A), pp. 2049-2065. doi: 10.30684/etj.2015.116225
C. Ghaleb, A., A. Jennam, M. Optimum Design of Reinforced Concrete Flat Slabs. Alustath, 2015; 33(9A): 2049-2065. doi: 10.30684/etj.2015.116225

Optimum Design of Reinforced Concrete Flat Slabs

Engineering and Technology Journal
Article 1, Volume 33, 9A, December 2015, Pages 2049-2065    PDF (471.01 K)
DOI: 10.30684/etj.2015.116225
Authors
Alaa C. Ghaleb; Mohammed A. Jennam
Abstract
This paper deals with the problem of optimum design of reinforced concrete flat slabs by genetic algorithm. Four case studies are discussed; flat slabs with and without edge beams, and, flat-plate with and without edge beams. The cost function represents the cost of concrete, steel reinforcement, and formwork. The design variables are: the effective depth of the slab, dimensions of drop panel, the area of flexural reinforcement at the critical sections of slab, and of edge beams. The constraints are taken on slab dimensions, and area of steel reinforcements. The results showed that the optimum ratio of (effective depth /span length) are within the ranges (1/39-1/27) for flat slabs without edge beams, (1/43-1/30) for flat slabs with edge beams , (1/30-1/23) for flat-plate without edge beams and (1/35-1/25) for flat-plates with edge beams. It is also found, that for same span length, the flat slab without edge beams is more economical slab types.
Keywords
optimum design; Genetic algorithms; flat slabs; flat plates; reinforced concrete slabs
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