CRACK RESISTANCE OF REINFORCED CONCRETE STRUCTURES OF RING SECTIONS

CRACK RESISTANCE OF REINFORCED CONCRETE STRUCTURES OF RING SECTIONS

In this paper, the issues of developing a calculation method for the formation of cracks normal to the longitudinal axis of bent reinforced concrete structures of circular cross-section without prestressing the reinforcement based on a nonlinear deformation model using a bilinear diagram of the st...

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Bibliographic Details
Main Authors: Nikolay N. Trekin, N. Kodysh, Sergey G. Parfenov, Konstantin R. Andrian
Format: Article
Language:English
Published: Institute of Mechanics of Continua and Mathematical Sciences 2025-03-01
Series:Journal of Mechanics of Continua and Mathematical Sciences
Subjects:
circular cross-section
moment of crack formation
neutral axis
arc length
sector area
elastic-plastic moment of resistance.
Online Access:https://jmcms.s3.amazonaws.com/wp-content/uploads/2025/03/13093137/jmcms-2502026-Crack-resistance-of-reinforced-concrete.pdf
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Summary:In this paper, the issues of developing a calculation method for the formation of cracks normal to the longitudinal axis of bent reinforced concrete structures of circular cross-section without prestressing the reinforcement based on a nonlinear deformation model using a bilinear diagram of the state of concrete are considered. The prerequisites based on which theoretical dependences are constructed to determine the complex internal forces of a round normal section before the formation of cracks is presented. Based on stereometry, dependencies are presented to determine the forces in the concrete and reinforcement of the compressed zone and the forces in the stretched zone, respectively, for concrete and reinforcement. Since it is difficult to analytically solve a system of equations with negative and positive exponents, it is recommended to carry out numerical iterative processes to determine the desired unknowns: heights of the compressed zone, maximum stresses in concrete and reinforcement of the compressed zone. Numerical studies have made it possible to determine the value of the elastic-plastic moment of the annular section and to identify its dependence on the strength of concrete.
ISSN:0973-8975
2454-7190

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