The experimental tests data of reinforced concrete beams of a rectangular profile made of heavy concrete on pure biaxial bending are presented. The inclination angle of the external load plane to the vertical axis of inertia of the section varied in the range from 0º to 20º. The tests were conducted to study the work of the biaxial bended elements under load and to verify the developed method for strength analysis of such elements. It has been established that the order of changing the neutral axis position in the section of the biaxial bending beams in the loading process depends primarily on the relative disposition of the external load plane and the resultant in the tensioned reinforcement. It has been confirmed that the ultimate compressed fibrous strains of concrete depend not on the shape of the section, but on the shape of the concrete compressed zone. The results of the tests have good correspondence with theoretical calculations, which proves the expediency of using the developed engineering method for the strength analysis.
Супрун Олег Юрьевич, асистент ка федри технології будівельного виробництва і будівельних матеріалів Харківського національного університету міського господарства імені А. М. Бекетова.
The wide distribution of elements of reinforced concrete structures operating in biaxial bending conditions requires a comprehensive theoretical and experimental study of their work. At the present stage, in order to find out the real work of biaxially bended elements, it is necessary to determine all parameters that can affect the fracture pattern of such elements. Comparisons of the numerical modelling results of the work of biaxially bended elements with experimental data are not enough in the literature. Therefore, an important task is to carry out a numerical simulation of the work of biaxially bended reinforced concrete beams in order to compare its results with experimental data and to give recommendations on the possibility and advisability of such modelling for practical use. 15 samples of rectangular reinforced concrete beams made of heavyweight concrete were used for experimental and numerical studies. The experimental beams were tested for biaxial pure bending at various inclination angles of the external load plane. Carrying out numerical calculations by the finite element method using a PC made it possible to obtain graphs of the distribution of strains and stresses about the principal axes on the surface of the models, as well as in reinforcing bars, and their numerical values with an indication of the extrema. The position of the neutral axis and its change during the loading of sample models were experimentally and numerically studied. As a result of the study, it was determined that finite-element modelling of the work of biaxially bended beams allows to take into account the features of the exhaustion of their bearing capacity. The computational models of beams adopted during the simulation are adequate in the software package and correspond to real designs. The considered numerical model of reinforced concrete biaxially bended beam is quite simple and allows studying the stress-strain state at different percentages of reinforcement and at different inclination angles of external load plane.
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