Maung Maung Win Aung scite author profile

Maung Maung Win Aung

2Publications

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Affiliations

Moscow Automobile and Road Construction State Technical University

Publications

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Accounting for the effect of creep and shrinkage on the stress state of concrete structures of cable-stayed bridges in Myanmar

Valiev

Aung

Shatilov

2020

Russian journal of transport engineering

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The article considers the finite element analysis of the influence of time-dependent processes (creep and shrinkage) of concrete on the structures of a concrete cable-stayed bridge according to Russian, European and American standards. For numerical calculation, the Midas/Civil software was used, which allowed us to take into account elastic short-term deformation and creep deformation, as well as changes in the strength of concrete over time. Long-term deformations in concrete elements could be 1.5~3.0 times higher than elastic deformations and were observed in the first few months, and most of them occurred within five years. The object of research was a cable-stayed bridge with a reinforced concrete beam with a box girder. Three calculation models were used to model concrete shrinkage and creep: according to Russian, European and American standards. The results of the study showed significant discrepancies between foreign and Russian standards for accounting for long-term processes in concrete structures of cable-stayed bridges. Creep and shrinkage processes led to increased displacements in the box girder and pylon. Moreover, with an increase in the humidity of the environment, the deflection of the girder decreased, and the displacement of the pylon slightly increased. The cable-forced was reduced by the shrinkage and creep of the concrete. It was found that the loss of cable forces decreased with increasing humidity of the environment.

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The behavior of reinforced concrete pylons in the static analysis of cable-stayed bridges

Valiev

Aung

Ovchinnikov

2020

Russian journal of transport engineering

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In this paper, we consider a linear static analysis of cable-stayed bridges with different pylon shapes under their own weight. The cable-stayed bridge is one of the modern bridges that are built to cover large spans. It is therefore necessary to study the behavior of the pylons before you can apply it in practice. For this study, different pylon shapes are compared with the size of the bridge span, while other parameters remain unchanged. The various forms of pylons considered for a cable-stayed bridge are diamond, small diamond, Y-inverted, A, H and U-shaped. The height of the pylon remains the same for all cable-stayed bridge models with different pylon shapes. The bridge simulation was prepared using the Midas/Civil software. For this study, the semi-fan type cable-stayed bridge was adopted. The study gives the deformed state of the pylons, i.e. bending moments, transverse and longitudinal forces, and deflections. This study will be useful for selecting the shape of the pylon for the bridge used in specific conditions.

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