Please use this identifier to cite or link to this item: http://lib.kart.edu.ua/handle/123456789/20108
Title: Rationalization of cross-sections of the composite reinforced concrete span structure of bridges with a monolithic reinforced concrete roadway slab
Authors: Vatulia, G. L.
Lobiak, O. V.
Deryzemlia, S. V.
Verevicheva, M. A.
Orel, Ye. F.
Issue Date: 2019
Publisher: IOP Publishing Ltd
Citation: Vatulia G. L. Rationalization of cross-sections of the composite reinforced concrete span structure of bridges with a monolithic reinforced concrete roadway slab / G. L. Vatulia, O. V. Lobiak, S. V. Deryzemlia, M. A. Verevicheva, Ye. F. Orel // IOP Conference. Series: Materials Science and Engineering. - 2019. - Vol. 664. - P. 1-10.
Series/Report no.: Materials Science and Engineering;
Abstract: The article presents the developed rationalization technique of composite steel reinforced concrete sections with steel open section beams based on the criterion of equal strength of the section elements that are extremely distant from the neutral line. Algorithms for search for geometric parameters of a composite section limited to a certain range of values are implemented to achieve the equal strength condition. The dimensions of the individual elements which are parts of the cross-section are obtained from the condition of the constant ratio of the distances from the neutral axis to the extreme concrete and steel fibers. The numerical methods were used for calculation of continuous three-span composite reinforce concrete bridge. The technique implements the steps of bridge construction, taking into account the contact yield of the composite section, the redistribution of forces between the elements, and the effect of elasticplastic and rheological properties of materials. The generalized kinetic curve was utilized for evaluation of concrete creep together with the phenomenological equations for the development of deformations based on a colloid-chemical representation of the mechanism for long-term concrete deformation. The proposed methodology is implemented in the LIRA-SAPR software package based on the Building Information Model Technology (BIM) and the Finite Element Method (FEM).
URI: http://lib.kart.edu.ua/handle/123456789/20108
Appears in Collections:2019

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