Mesoscopic simulation of size effect on stirrup-confined concrete columns under axial compression

Numerous studies have indicated the existence of size effect on axial compression behavior of stirrup-confined concrete columns. However, most of these studies have been stressed in terms of nominal compressive strength. The investigation on the size effect of axial strain (at peak load) and descending branch was limited. In this study, the size effect behavior of square stirrup-confined concrete columns under axial compression was explored, by using 3-D mesoscale simulation method. Based on the numerical and available experimental results, the influence of specimen size on the peak axial stress (i.e., the compressive strength), the corresponding strain and the softening rate were explored. Moreover, the quantitative relationships between specimen size and the peak axial stress, the corresponding strain and the softening rate for circular and square stirrup-confined concrete columns were derived. Finally, considering the size effect of peak axial stress, the corresponding strain and the softening rate, a novel stress-strain model describing the axial compression behavior of stirrup-confined concrete was developed. The proposed model was verified by comparing with the available experimental results and the existing models provided.

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A combined experimental and numerical analysis on the seismic behavior of short reinforced concrete columns with different structural sizes and axial compression ratios

International Journal of Damage Mechanics ◽

10.1177/1056789517735679 ◽

2017 ◽

Vol 27 (9) ◽

pp. 1416-1447 ◽

Cited By ~ 15

Author(s):

Liu Jin ◽

Shuai Zhang ◽

Dong Li ◽

Haibin Xu ◽

Xiuli Du ◽

...

Keyword(s):

Reinforced Concrete ◽

Energy Dissipation ◽

Axial Compression ◽

Seismic Behavior ◽

Load Capacity ◽

Concrete Columns ◽

Simulation Method ◽

Reinforced Concrete Columns ◽

Mesoscopic Simulation ◽

Energy Dissipation Capacity

The results of an experimental program on eight short reinforced concrete columns having different structural sizes and axial compression ratios subjected to monotonic/cyclic lateral loading were reported. A 3D mesoscopic simulation method for the analysis of mechanical properties of reinforced concrete members was established, and then it was utilized as an important supplement and extension of the traditional experimental method. Lots of numerical trials, based on the restricted experimental results and the proposed 3D mesoscopic simulation method, were carried out to sufficiently evaluate the seismic performances of short reinforced concrete columns with different structural sizes and axial compression ratios. The test results indicate that (1) the failure pattern of reinforced concrete columns can be significantly affected by the shear-span ratio; (2) increasing the axial compression ratio could improve the load capacity of the reinforced concrete column, but the deformation capacity would be restricted and the failure mode would be more brittle, consequently the energy dissipation capacity could be deteriorated; and (3) the load capacity, the displacement ductility, and the energy dissipation capacity of the short reinforced concrete columns all exhibit clear size effect, namely, the size effect could significantly affect the seismic behavior of reinforced concrete columns.

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Mechanical Properties of Large Scale Confined Concrete

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.94-96.1983 ◽

2011 ◽

Vol 94-96 ◽

pp. 1983-1988

Author(s):

Jia Song ◽

Zhen Bao Li ◽

Yong Ping Xie ◽

Xiu Li Du ◽

Yue Gao

Keyword(s):

Mechanical Properties ◽

Experimental Study ◽

Axial Compression ◽

Large Scale ◽

Plain Concrete ◽

Concrete Columns ◽

Confined Concrete ◽

Transverse Reinforcement ◽

Test Results ◽

Reinforcement Configuration

An experimental study was made of the mechanical properties of large scale confined concrete subjected to the axial compression test. Eleven tied concrete columns and six plain concrete prisms were tested. In the test, each specimen had the same transverse reinforcement configuration, and similar volumetric ratio of lateral steel, while different size. The test results in this paper indicate that the size of the specimen has no obvious relationship with the ultimate strength, however, it does affect the post-peak ductility to some extent. As a supplement to the experimental study, a finite element method was adopted to imitate the mechanical behavior of the confined concrete under axial compression. The results of the imitation in this paper indicate the confinement mechanism of large scale specimens.

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Experimental Study on Fibre-reinforced Cementitious Matrix Confined Concrete Columns under Axial Compression

Kemija u industriji ◽

10.15255/kui.2016.039 ◽

2017 ◽

Vol 66 (3-4) ◽

pp. 165-172 ◽

Cited By ~ 1

Author(s):

Lan Zeng ◽

◽

Lijuan Li ◽

Feng Liu ◽

◽

...

Keyword(s):

Experimental Study ◽

Axial Compression ◽

Concrete Columns ◽

Confined Concrete ◽

Cementitious Matrix

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Behaviour of angle steel frame confined concrete columns under axial compression

Construction and Building Materials ◽

10.1016/j.conbuildmat.2020.118034 ◽

2020 ◽

Vol 241 ◽

pp. 118034 ◽

Cited By ~ 1

Author(s):

Chong Rong ◽

Qingxuan Shi

Keyword(s):

Axial Compression ◽

Concrete Columns ◽

Steel Frame ◽

Confined Concrete ◽

Angle Steel

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Size effect of confined concrete subjected to axial compression

Journal of Central South University ◽

10.1007/s11771-014-2056-7 ◽

2014 ◽

Vol 21 (3) ◽

pp. 1217-1226 ◽

Cited By ~ 10

Author(s):

Zhen-bao Li ◽

Jia Song ◽

Xiu-li Du ◽

Xiu-guang Yang

Keyword(s):

Size Effect ◽

Axial Compression ◽

Confined Concrete

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Impact Factors Study on Strength of Steel Tube Confined Concrete Columns under Axial Compression

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.639-640.1069 ◽

2013 ◽

Vol 639-640 ◽

pp. 1069-1072

Author(s):

Hao Xiong Feng ◽

Wei Jian Yi

Keyword(s):

Axial Compression ◽

Theoretical Basis ◽

Concrete Strength ◽

Concrete Columns ◽

Steel Tube ◽

Confined Concrete ◽

Impact Factors ◽

Working Mechanism

This paper describes principle and working mechanism of the steel tube confined concrete, to analyze impact factors of steel tube confined concrete strength. By the studies, presents several solutions to improve the strength of steel tube confined concrete, fully execute the behavior of steel tube and filled-in-concrete, strengthen the interactions between steel tube and filled-in-concrete to provide theoretical basis for the design and use of steel tube confined concrete.

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Study on Load-Bearing Characteristics of Double Layer Stirrup Confined Concrete Square Columns

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.243-249.1466 ◽

2011 ◽

Vol 243-249 ◽

pp. 1466-1476

Author(s):

Lin Zhu Sun ◽

Fang Yang ◽

Ya Gang Zhou ◽

Zi Ling Xie

Keyword(s):

Bearing Capacity ◽

Axial Compression ◽

Double Layer ◽

Concrete Columns ◽

Confined Concrete ◽

The Core ◽

Capacity Calculation ◽

Strength And Deformation ◽

Compression Characteristics ◽

Core Concrete

Double layer stirrup confined concrete columns use two layers of stirrup, inside and outside, to constrain the core concrete. In this paper, in order to analyze the effect of double layer stirrups on the axial compression characteristics of concrete square columns, to determine the strength and deformation characteristics of double layer stirrup confined concrete square columns, and to establish the bearing capacity calculation equation for double layer stirrup confined concrete square columns, we designed 16 specimens to conduct axial compression test, from which a series of test data were obtained for double layer stirrup confined concrete square columns. We built the bearing capacity calculation equation for double layer stirrup confined concrete components on the basis of analysis and study and compared the calculated values with the test ones, and these data fit well; therefore, the study can provide reference for design and application of double layer stirrup confined concrete square columns.

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Axial Compression Ratio Limit of Regional Confined Concrete Columns

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.438-439.501 ◽

2013 ◽

Vol 438-439 ◽

pp. 501-504

Author(s):

Jun Yan Lu ◽

Wei Wang Pang ◽

Shuai Chang

Keyword(s):

Axial Compression ◽

Compression Ratio ◽

Simulation Experiment ◽

Concrete Columns ◽

Hysteretic Behavior ◽

Confined Concrete ◽

Earthquake Simulation ◽

Related Factors ◽

Axial Compression Ratio ◽

Ratio Limit

Through earthquake simulation experiment of nine regional confined concrete columns with different axial compression ratio, the bearing capacity and seismic behavior of regional confined concrete columns were studied in this paper. Considering the ductility, stiffness, energy-dissipation performance and related factors of regional confined concrete columns under different axial compression ratio, by comparative analysis of the hysteretic behavior of the specimens, the limit of axial compression ratio of regional confined concrete columns is proposed for seismic design.

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Influence of the Cross–Sectional Shape and Corner Radius on the Compressive Behaviour of Concrete Columns Confined by FRP and Stirrups

Polymers ◽

10.3390/polym14020341 ◽

2022 ◽

Vol 14 (2) ◽

pp. 341

Author(s):

Yang Wei ◽

Yang Xu ◽

Gaofei Wang ◽

Xunyu Cheng ◽

Guofen Li

Keyword(s):

Mechanical Properties ◽

Axial Compression ◽

Concrete Columns ◽

Confined Concrete ◽

Compression Tests ◽

Cross Sectional ◽

Compressive Behaviour ◽

Corner Radius ◽

The Cross ◽

Sectional Shape

Axial compression tests were carried out on 72 FRP (fiber reinforced polymer)–stirrup composite−confined concrete columns. Stirrups ensure the residual bearing capacity and ductility after the FRP fractures. To reduce the effect of stress concentration at the corners of the confined square−section concrete columns and improve the restraint effect, an FRP–stirrup composite−confined concrete structure with rounded corners is proposed. Different corner radii of the stirrup and outer FRP were designed, and the corner radius of the stirrup was adjusted accurately to meet the designed corner radius of the outer FRP. The cross−section of the specimens gradually changed from square to circular as the corner radius increased. The influence of the cross−sectional shape and corner radius on the compressive behaviour of FRP–stirrup composite−confined concrete was analysed. An increase in the corner radius can cause the strain distribution of the FRP to be more uniform and strengthen the restraint effect. The larger the corner radius of the specimen, the better the improvement of mechanical properties. The strength of the circular section specimen was greatly improved. In addition, the test parameters also included the FRP layers, FRP types and stirrup spacing. With the same corner radius, increasing the number of FRP layers or densifying the stirrup spacing effectively improved the mechanical properties of the specimens. Finally, a database of FRP–stirrup composite−confined concrete column test results with different corner radii was established. The general calculation models were proposed, respectively, for the peak points, ultimate points and stress–strain models that are applicable to FRP−, stirrup− and FRP–stirrup−confined concrete columns with different cross−sectional shapes under axial compression.

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