CALCULATION OF THE CRACK RESISTANCE OF REINFORCED CONCRETE ELEMENTS WITH ALLOWANCE FOR THE LEVELS OF NORMAL CRACKS FORMATION

The paper deals with research data of reinforced concrete rectangular and I-shaped cross-section elements, operating under oblique eccentric short-term dynamic compression, tension and bending. The method of reinforced concrete elements calculation using the theory of surfaces of relative resistance regarding strength and crack resistance is suggested. It is based on the deformation model with the use of real nonlinear diagrams of concrete and reinforcement. This method makes it possible to observe strength and crack resistance of reinforced concrete elements sections in the entire range of loadings from the central tension to axial compression. Experimental investigation of symmetrically reinforced concrete elements on oblique eccentric short-term dynamic compression, tension and oblique bending was carried out. Effect of longitudinal force level on strain distribution through the depth of section, bearing capacity, the failure scheme and other parameters are estimated.

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Design Model Of Bending Reinforced Concrete Elements Under Action Of Transverse Forces Under Conditions Of Increased And High Temperatures

The American Journal of Engineering And Techonology ◽

10.37547/tajet/volume02issue10-04 ◽

2020 ◽

Vol 02 (10) ◽

pp. 17-24

Author(s):

Mahkamov Y.M. ◽

Keyword(s):

Reinforced Concrete ◽

Crack Resistance ◽

High Temperatures ◽

Experimental Studies ◽

Calculation Model ◽

Design Model ◽

Stress Strain ◽

Concrete Elements

In this article, the calculation of the strength and crack resistance of bending elements operating under conditions of high and high temperatures and transverse forces are proposed to be carried out according to a calculation model developed based on an analysis of experimental studies that takes into account more correctly the physics of the stress-strain phenomenon of the element.

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Calculation of the crack resistance of reinforced concrete elements with allowance for the levels of normal crack formation

MATEC Web of Conferences ◽

10.1051/matecconf/201823002028 ◽

2018 ◽

Vol 230 ◽

pp. 02028 ◽

Cited By ~ 2

Author(s):

Vasyl Romashko ◽

Olena Romashko

Keyword(s):

Reinforced Concrete ◽

Crack Resistance ◽

Calculation Method ◽

Solid Mechanics ◽

Crack Formation ◽

Crack Opening ◽

Nonlinear Function ◽

Experimental Investigations ◽

Concrete Element ◽

Concrete Elements

The separate experimental investigations results and the major drawbacks of existing methods of calculating the reinforced concrete elements crack resistance are considered in detail, taking into account the process of multilevel formation and crack opening. Based on the basic provisions of the deformation and strength model of concrete and reinforced concrete resistance, an engineering method for calculating the formation and disclosure of normal cracks in the reinforced concrete elements and structures at the operational stages of their deformation is proposed. It is implemented on the system of generally accepted static, geometric and physical relations of a deformed solid mechanics. The simplicity of the proposed calculation method is due to the use of the nonlinear function of the average stresses of the reinforcement bond with concrete on the sections of the reinforced concrete element between adjacent cracks. The main advantages of the developed calculation method in comparison with others are outlined.

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Crack Resistance Criteria for Reinforced Concrete Beams with Corrosion Damage in Strength Resource Assessment

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.725-726.740 ◽

2015 ◽

Vol 725-726 ◽

pp. 740-745

Author(s):

Vitaly Kolchunov ◽

Natalia Androsova ◽

Tatyana Kolchina

Keyword(s):

Reinforced Concrete ◽

Crack Resistance ◽

Concrete Beams ◽

Corrosion Damage ◽

Plane Stress State ◽

Resource Assessment ◽

Reinforced Concrete Beams ◽

Ultimate State ◽

Failure State ◽

Concrete Elements

In the framework of ultimate state calculation methods the paper presents some propositions for stress-strain state, crack resistance analysis and failure state of reinforced concrete structures with corrosion damage at supports. The work concerns the durability of concrete and reinforced concrete elements with corrosion damage. The theory for reinforced concrete with corrosion damage is presented for plane stress state

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Determination of pin forces in longitudinal reinforcement and stiffness at torsion reinforced concrete elements with normal cracks

Building constructions. Theory and Practice ◽

10.32347/2522-4182.7.2020.23-31 ◽

2020 ◽

Vol 0 (7) ◽

pp. 23-31

Author(s):

Taliat Azizov ◽

Dmуtro Kochkarev ◽

Olena Nahaichuk

Keyword(s):

Reinforced Concrete ◽

Longitudinal Reinforcement ◽

Concrete Elements

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SETTING A DIAGRAM APPROACH TO CALCULATING VIBRATED, CENTRIFUGED AND VIBROCENTRIFUGED REINFORCED CONCRETE COLUMNS WITH A VARIATROPIC STRUCTURE

НАУЧНЫЙ ЖУРНАЛ СТРОИТЕЛЬСТВА И АРХИТЕКТУРЫ ◽

10.36622/vstu.2020.60.4.002 ◽

2020 ◽

pp. 22-34

Author(s):

Л. Р. Маилян ◽

С. А. Стельмах ◽

Е. М. Щербань ◽

М. П. Нажуев

Keyword(s):

Experimental Data ◽

Reinforced Concrete ◽

Bearing Capacity ◽

Cross Section ◽

Concrete Columns ◽

Reinforced Concrete Columns ◽

The Cross ◽

Concrete Elements ◽

Diagram Approach

Состояние проблемы. Железобетонные элементы изготавливаются, как правило, по трем основным технологиям - вибрированием, центрифугированием и виброцентрифугированием. Однако все основные расчетные зависимости для определения их несущей способности выведены, исходя из основного постулата - постоянства и равенства характеристик бетона по сечению, что реализуется лишь в вибрированных колоннах. Результаты. В рамках диаграммного подхода предложены итерационный, приближенный и упрощенный способы расчета несущей способности железобетонных вибрированных, центрифугированных и виброцентрифугированных колонн. Выводы. Расчет по диаграммному подходу показал существенно более подходящую сходимость с опытными данными, чем расчет по методике норм, а также дал лучшие результаты при использовании дифференциальных характеристик бетона, чем при использовании интегральных и, тем более, нормативных характеристик бетона. Statement of the problem. Reinforced concrete elements are typically manufactured according to three basic technologies - vibration, centrifugation and vibrocentrifugation. However, all the basic calculated dependencies for determining their bearing capacity were derived using the main postulate, i.e., the constancy and equality of the characteristics of concrete over the cross section, which is implemented only in vibrated columns. Results. Within the framework of the diagrammatic approach, iterative, approximate and simplified methods of calculating the bearing capacity of reinforced concrete vibrated, centrifuged and vibrocentrifuged columns are proposed. Conclusions. The calculation according to the diagrammatic approach showed a significantly better convergence with the experimental data than that using the method of norms, and also performs better when using differential characteristics of concrete than when employing integral and particularly standard characteristics of concrete.

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