Stirrups (links) are used for resisting any excess shear force and torsion (where applicable). Longitudinal reinforcement is used to resist bending moment, and also enhance the shear force capacity of a beam. For raker beams, the presence of axial force can be quite significant in the design. Depending on the loading and orientation, the beam may experience torsion (twisting), as found in curved beams or beams supporting canopy roofs. Under the actions listed above, a horizontal reinforced concrete beam will majorly experience bending moment and shear force. The design of a reinforced concrete (R.C.) beam involves the selection of the proper beam size and area of reinforcement to carry the applied load without failing or deflecting excessively. Floor beams in a reinforced concrete building are normally designed to resist load from the floor slab, their own self-weight, the weight of the partitions/cladding, the weight of finishes, and other actions as may be applied. When they are inclined or slanted, they are referred to as raker beams. Design Example of a Reinforced Concrete Beamīeams are horizontal structural elements designed to carry lateral loads.Check for Cracking in Reinforced Concrete Beams.Deflection of Reinforced Concrete Beams.Shear Design of Reinforced Concrete Beams.Curtailment of Reinforced Concrete Beams.Flexural Design of Reinforced Concrete beams. ![]() ![]() Structural Analysis of Reinforced Concrete Beams.
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