Development of a method for calculating the stress state in horizontal sections of hydraulic engineering angular-type retaining walls
Journal: Structural Mechanics of Engineering Constructions and Buildings (Vol.15, No. 5)Publication Date: 2019-12-04
Authors : Oleg Rubin; Sergey Lisichkin; Fedor Pashenko;
Page : 339-344
Keywords : hydraulic engineering retaining walls of a corner type; characteristic feature; interblock horizontal seams; cracking; eccentric compression; compressive and tensile stresses; calculation method;
Abstract
Angular retaining walls are widespread in hydraulic engineering. They are characterized by large dimensions, small percentages of reinforcement, block cutting along the height of the structure. The bulk of the existing retaining walls were built in the 1960s-1980s. The regulatory documents that were in force during this period had certain shortcomings that caused the non-design behavior of a number of retaining walls. Improvement of calculation methods for reinforced concrete structures of retaining walls is required, within the framework of which a more complete account of the characteristic features of their behavior is needed. The aim of the work is to improve methods for calculating reinforced concrete retaining walls of a corner type. Methods of research carried out to improve the calculation of reinforced concrete retaining walls of the corner type included, among others, the classical methods of resistance of materials, the theory of elasticity, and structural mechanics. To determine the actual stress-strain state of the natural structures of retaining walls, visual and instrumental methods for examining retaining walls were used, including the method of unloading reinforcement. Results. To determine the stress state in the elements of the reinforced concrete structure of the retaining wall (in concrete and in reinforcement), a methodology was developed for calculating the stress state of retaining walls, which allows to determine the components of the stress state (stress in concrete in the compressed zone, as well as stress in stretched and compressed reinforcement) in horizontal sections of the vertical cantilever part of the retaining walls.
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