Analysis of reinforced concrete shells with transverse shear forces
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Media Type: Article/Story
Article Source: ASCE JOURNAL OF STRUCTURAL ENGINEERING Vol 136, no. 7 pp. 837 - 848
Series:
Author: SCHULZ, M., SANTISI D'AVILA, M. P.
Call Number:
Accession Number: 201007837
Publisher: , Reston, VA, United States Publication Date: 2010
Subject:STRUCTURAL ANALYSIS; SHELLS; UNITED STATES
Abstract:
This research investigates the simultaneous effect of in-plane and transverse loads in reinforced concrete shells. The infinitesimal shell element is divided into layers (with triaxial behavior) that are analyzed according to the smeared rotating crack approach. The set of internal forces includes the derivatives of the in-plane components. The corresponding generalized strains are determined using an extension of the equivalent section method valid for shells. The formulation yields through-the-thickness distributions of stresses and strains and the spatial orientation of the concrete struts. Although some simplifications are necessary to establish a practical first-order approximation, higher-order solutions could be developed. Despite the fact that constitutive matrices are not symmetric because of the tension-softening formulation, the equilibrium and compatibility conditions are satisfied, the stiffness derivatives are explicitly calculated, and the algorithms show good convergence. The formulation predicts results that agree with experimental data obtained by other researchers. Although comparative analysis with additional experimental data is still necessary, the proposed theory provides a promising solution for the design of reinforced concrete shells. Keywords : Shell structures, Reinforced concrete, Stress, Shear strength, Structural design, Transverse shear
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