This document summarizes the design of a bridge slab including calculations of dead and live loads, load factors, and moments. It calculates the minimum slab thickness as 984mm and uses 1200mm. It determines the interior equivalent strip width as 4505mm and edge strip width as 2208mm. It calculates the reactions, moments due to truck and tandem loads, and the factored bending moment of 4931.66 kNm which is used to design the slab reinforcement.
This document summarizes the design of a bridge slab including calculations of dead and live loads, load factors, and moments. It calculates the minimum slab thickness as 984mm and uses 1200mm. It determines the interior equivalent strip width as 4505mm and edge strip width as 2208mm. It calculates the reactions, moments due to truck and tandem loads, and the factored bending moment of 4931.66 kNm which is used to design the slab reinforcement.
This document summarizes the design of a bridge slab including calculations of dead and live loads, load factors, and moments. It calculates the minimum slab thickness as 984mm and uses 1200mm. It determines the interior equivalent strip width as 4505mm and edge strip width as 2208mm. It calculates the reactions, moments due to truck and tandem loads, and the factored bending moment of 4931.66 kNm which is used to design the slab reinforcement.
This document summarizes the design of a bridge slab including calculations of dead and live loads, load factors, and moments. It calculates the minimum slab thickness as 984mm and uses 1200mm. It determines the interior equivalent strip width as 4505mm and edge strip width as 2208mm. It calculates the reactions, moments due to truck and tandem loads, and the factored bending moment of 4931.66 kNm which is used to design the slab reinforcement.