Cost-optimum design of reinforced concrete beams based on strength, ductility and serviceability requirements and practical considerations
Jor. of Eng. and applied science, Cairo Uni. • 1999
Publication Information
Authors
A.M Azmy and M.H.Eid
Keywords
Not Available
Journal
Jor. of Eng. and applied science, Cairo Uni.
Publisher
Cairo Uni.
Volume
Vol.46
Issue
No.3
Pages
435-452
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
An optimization method for the shear design of rectangular beams is presented. The procedure is formulated as finding the minimum cost of design with constraints imposed based on ACI code provisions. The cost of concrete, shear reinforcement and formwork are included in the formulation of the objective function. The behavioral constraints, i.e, ACI requirements for shear strength and practical constraints, i.e, cross-sectional dimensions of beams are included in the formulation. A closed form solution of the optimization problem expresses the optimal values of the shear reinforcement, spacing and section dimensions in terms of material costs, strength and ductility parameters. A complete flow chart and a computer program of the algorithm is presented and several numerical examples are given.
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