Bearing capacity analysis of reinforced concrete L-shaped cross-section under biaxial eccentric compression

Making use of the numerical analysis method, the bearing capacity of reinforced concrete column with Z-shaped cross-section subjected to biaxial eccentric compression was analyzed in this paper. Some factors affecting the ultimate bearing capacity of Z-shaped reinforced concrete column were studied, such as loading angle, ratio of axial compression, reinforced ratio, concrete strength and reinforcement arrangement in the limb. It is shown that the worst loading angle was near the second center bisector, the bearing capacity can be improved by enhance reinforced ratio, rebar strength or concrete strength, and the reinforcement arrangement in the limb had little effect on the bearing capacity.

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Study on the Bearing Capacity and Ductility of Steel Reinforced Concrete Cross-Shaped Columns

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.243-249.15 ◽

2011 ◽

Vol 243-249 ◽

pp. 15-19 ◽

Cited By ~ 1

Author(s):

Zhe Li ◽

Shao Ji Chen ◽

Jing Xu ◽

Ye Ni Wang ◽

Cui Ping Zhang

Keyword(s):

Reinforced Concrete ◽

Bearing Capacity ◽

Axial Compression ◽

Cross Section ◽

Compression Ratio ◽

Computer Data ◽

Steel Reinforced Concrete ◽

Axial Compression Ratio ◽

Eccentric Compression ◽

Curvature Ductility

Compared with reinforced concrete shaped columns, bearing capacity and ductility of steel reinforced concrete shaped columns are significantly improved, so it is with theoretical significance and practical application of value to research. Based on the plain cross section presume, with material cross-section boundary calculation unit, 15 steel reinforced concrete cross-shaped columns(SRCCSC) have made nonlinear full-rang numerical analysis. It demonstrates that the most adverse curvature ductility load angle of SRCCRSC is 45°.Loading angle (), axial compression ratio (n), and the ratio of spacing and diameter of longitudinal reinforcements (s/d) are the principal factors in curvature ductility of SRCCSC subjected to biaxial eccentric compression. Under the most unfavorable loading angle, through a regression analysis of curvature ductility computer data of 150 cross-shaped columns with 8mm stirrups diameter and 150 columns with 10mm stirrups diameter, it can be obtained with the relationship betweenand axial compression ration,s/d, of SRCCSC subjected to biaxial eccentric compression.

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Sensitivity Parameter Analysis of Bearing Capacity and Ductility of Reinforced Concrete Columns with Z-Shaped Cross-Section

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.831.158 ◽

2013 ◽

Vol 831 ◽

pp. 158-163

Author(s):

Jun Ting Jiao ◽

Rong Hua Yang

Keyword(s):

Reinforced Concrete ◽

Bearing Capacity ◽

Axial Compression ◽

Cross Section ◽

Orthogonal Design ◽

Limb Length ◽

Sensitivity Factor ◽

Rc Columns ◽

Sensitivity Parameter ◽

Shaped Cross Section

In order to select sensitivity parameter of bearing capacity and ductility, the orthogonal design method was used to research reinforced concrete (RC) columns with Z-shaped cross-section under compression and bending, by the nonlinear analysis computer program of RC columns with irregularly-shaped cross-section. The seven parameters and four levels of orthogonal design were researched, for example ratio of limb length to limb thickness, ratio of axial compression, loading angle, concrete strength, long reinforce ratio, stirrup diameter and stirrup spacing. The results indicated that the best sensitivity factor of bearing capacity was ratio of limb length to limb thickness, next were loading angle and long reinforce ratio; the best sensitivity factor of ductility was ratio of axial compression, next were stirrup diameter and stirrup spacing. These would afford references for the design of RC columns with Z-shaped cross-section.

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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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NONLINEAR ANALYSIS OF A BARBELL-SHAPED CROSS SECTION WALL USING FIBER SLICE

Proceedings of International Structural Engineering and Construction ◽

10.14455/isec.res.2014.16 ◽

2014 ◽

Vol 1 (1) ◽

Author(s):

Dae-Han Jun ◽

Pyeong-Doo Kang

Keyword(s):

Reinforced Concrete ◽

Analytical Model ◽

Cross Section ◽

Cross Sections ◽

Axial Load ◽

Nonlinear Response ◽

Shear Walls ◽

Lateral Loads ◽

Fiber Element ◽

Shaped Cross Section

Reinforced concrete shear walls are effective for resisting lateral loads imposed by wind or earthquakes. This study investigates the effectiveness of a wall fiber element in predicting the flexural nonlinear response of reinforced concrete shear walls. Model results are compared with experimental results for reinforced concrete shear walls with barbell-shaped cross sections without axial load. The analytical model is calibrated and the test measurements are processed to allow for a direct comparison of the predicted and measured flexural responses. Response results are compared at top displacements on the walls. Results obtained in the analytical model for barbell-shaped cross section wall compared favorably with experimentally responses for flexural capacity, stiffness, and deformability.

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Stimulation Analysis of High Temperature Bearing Capacity of Steel Reinforced Concrete Column Strengthened by CFRP

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.351-352.401 ◽

2013 ◽

Vol 351-352 ◽

pp. 401-405

Author(s):

Cheng Zhu Qiu ◽

Gang Yang

Keyword(s):

Reinforced Concrete ◽

High Temperature ◽

Bearing Capacity ◽

Cross Section ◽

Concrete Columns ◽

Concrete Column ◽

Reinforced Concrete Column ◽

Simulation Research ◽

Steel Reinforced Concrete ◽

Finite Element Software

The steel reinforced concrete column is one of the important members for structures, it is essential to study the high temperature performance of concrete column. The numerical simulation research is done using finite element software ANSYS. Under the high temperature, the analysis of the compressive bearing capacity and flexural capacity of the concrete columns strengthened by CFRP is done, and the compressive bearing capacities of different cross-section concrete columns strengthened with CFRP are tested.

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Experimental Study on Reinforcement of Failure Reinforced Concrete Beams

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.275-277.1264 ◽

2013 ◽

Vol 275-277 ◽

pp. 1264-1267

Author(s):

Qian Chen ◽

Ling Yong Liu ◽

Yang Jun Meng

Keyword(s):

Experimental Study ◽

Reinforced Concrete ◽

Bearing Capacity ◽

Epoxy Resin ◽

Cross Section ◽

Concrete Beams ◽

Experimental Results ◽

Reinforced Concrete Beams ◽

Carbon Cloth ◽

Structural Failure

Through repair and reinforcement of breaking reinforced concrete beams by epoxy resin and carbon cloth, and its experiment, the crack and deformation and bearing capacity as well as ductility of such beams are obtained. Experimental results show that the ultimate bearing capacity of beams after reinforcement increased by 210%, the structure ductility fell by 170%, structural failure form is similar to failure in normal cross section.

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Experimental Study on Strengthening with Bonded Steel Angles for Reinforced Concrete Columns after Fire

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.639-640.1120 ◽

2013 ◽

Vol 639-640 ◽

pp. 1120-1126

Author(s):

Guo Feng Wang ◽

Kai Yu ◽

Jun Hua Li ◽

Dong Liang Qiu

Keyword(s):

Reinforced Concrete ◽

Bearing Capacity ◽

Concrete Columns ◽

Fire Damage ◽

Tension Zone ◽

Test Results ◽

Reinforced Concrete Columns ◽

Standard Fire ◽

Eccentric Compression ◽

Steel Angles

The mechanical properties of fire-damage reinforced concrete columns strengthened with bonded steel angles were studied. Nine specimens were tested, including three normal temperature controlled columns, six heated under ISO834 standard fire. After exposure to fire, three of the six were rehabilitated with the bonded steel angles. It was shown by test results that the destructive properties of reinforced concrete columns with bonded steel angles may change and the small eccentric compression specimens may become large eccentric compression due to the steel angles increased the amount of steel in the tension zone of the specimen. In this research, compared with these under normal temperature, the bearing capacity of specimens which were exposure to fire was only ranged from 0.25 to 0.37 times. But the bearing capacity of specimens rehabilitated by the bonded steel angles can increase to 2.86 to 4.04 times of the originals and it can reach to the level of that in normal temperature.

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Computational Analysis of Biaxial Bending in Reinforced Concrete Columns

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.797.45 ◽

2015 ◽

Vol 797 ◽

pp. 45-52

Author(s):

Krzysztof Kamiński ◽

Katarzyna Budek

Keyword(s):

Reinforced Concrete ◽

Bearing Capacity ◽

Cross Section ◽

Calculation Method ◽

Computational Analysis ◽

Concrete Columns ◽

Bending Moments ◽

Biaxial Bending ◽

General Rules ◽

Eurocode 2

The aim of this paper is to provide a solution for easy calculations of reinforced concrete with biaxial bending cross-section. The paper presents in an orderly manner basic definitions related to the discussed topics, to the extent necessary to understand the discussed issues. As a result of the computational analysis dozens of sections with biaxial bending, there was developed a table and a chart containing the correction factor for bending moments, allowing to obtain the correct bearing capacity of cross-section, subjected to biaxial bending. This work presents proposition for a new, own calculation method of such cross-section. Calculations were made according to PN-EN 1992-1-1:2008, Eurocode 2, Design of concrete structures. Part 1-1: General rules and rules for buildings, using algorithms based on simplified methods. According to carried out calculations, cross-section dimensioning compressed with biaxial eccentricities separately on each side and values of bending moments should be increased to maintain cross-section's bearing capacity. The coefficient K scaling moments was determined as a function of eccentricity ey. With the increase of eccentricity, the coefficient K decreases.

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