Structural Health Monitoring of Reinforced Concrete Columns Subjected to Reversed Cyclic Loading Using Innovative Smart Aggregates

2010 ◽  
Author(s):  
Yashar Moslehy ◽  
Haichang Gu ◽  
Abdeljalil Belarbi ◽  
Y. L. Mo ◽  
Gangbing Song
Keyword(s):  
Reinforced Concrete ◽  
Cyclic Loading ◽  
Structural Health Monitoring ◽  
Health Monitoring ◽  
Concrete Columns ◽  
Reinforced Concrete Columns ◽  
Reversed Cyclic Loading ◽  
Structural Health ◽  
Reversed Cyclic

scholarly journals Structural Health Monitoring and Interface Damage Detection for Infill Reinforced Concrete Walls in Seismic Retrofit of Reinforced Concrete Frames Using Piezoceramic-Based Transducers Under the Cyclic Loading

2019 ◽  
Vol 9 (2) ◽  
pp. 312 ◽  
Author(s):  
Wen-I Liao ◽  
Fu-Pei Hsiao ◽  
Chien-Kuo Chiu ◽  
Chin-En Ho
Keyword(s):  
Reinforced Concrete ◽  
Cyclic Loading ◽  
Structural Health Monitoring ◽  
Health Monitoring ◽  
The Other ◽  
Structural Members ◽  
Interface Failure ◽  
Loading Test ◽  
Structural Health ◽  
Interface Damage

In this work, the piezoceramic-based transducers are used to perform the structural health monitoring (SHM) and interface damage detecting of non-ductile reinforced concrete (RC) frames retrofitted by post-installed RC walls. In order to develop the post-embedded piezoceramic-based transducers that can be used to identify interface failure or cracks between two structural members in retrofit construction, this work adopts the cyclic loading to test two specimens with post-embedded piezoceramic-based transducers (PPT). Since the failure of an interface between the post-installed wall and beam occurs, one of the specimens has damage in the foundation and existing boundary column and the other has damage in the top ends of column and wall. During the cyclic loading test, one transducer was used as an actuator to generate the stress waves and the other transducers were used as the sensors to detect the waves. In damaged specimens, the existence and locations of cracks and the interface damage can be detected by analyzing the wave response. Moreover, the severity of damage to the specimens can also be estimated. The experimental results indicate the effectiveness of the piezoceramic-based approach in the SHM and locating damage in shear-critical RC structural members under the seismic loading.

Seismic Analysis of Older Reinforced Concrete Columns

1999 ◽  
Vol 15 (2) ◽  
pp. 245-272 ◽  
Author(s):  
JoséA. Pincheira ◽  
Faridun S. Dotiwala ◽  
Jonathan T. D'Souza
Keyword(s):  
Reinforced Concrete ◽  
Cyclic Loading ◽  
Shear Failure ◽  
Analytical Procedure ◽  
Seismic Analysis ◽  
Concrete Columns ◽  
Reinforced Concrete Columns ◽  
Cyclic Response ◽  
Strength Failure ◽  
Reversed Cyclic

A nonlinear model and an analytical procedure for calculating the cyclic response of nonductile reinforced concrete columns are presented. The main characteristics of the model include the ability to represent flexure or shear failure under monotonically increasing or reversed cyclic loading. Stiffness degradation with cyclic loading can also be represented. The model was implemented in a multipurpose analysis program and was used to calculate the response of selected columns representative of older construction. A comparison of the calculated response with experimental results shows that the strength, failure mode and general characteristics of the measured cyclic response can be well represented by the model.

SEISMIC PERFORMANCE OF GFRP-RC RECTANGULAR COLUMNS: NUMERICAL STUDY

2021 ◽  
Vol 8 (1) ◽  
Author(s):  
Ehab El-Salakawy ◽  
Fangxin Ye ◽  
Yasser Mostafa Selmy
Keyword(s):  
Reinforced Concrete ◽  
Cyclic Loading ◽  
Axial Load ◽  
Numerical Study ◽  
Concrete Strength ◽  
Weight Ratio ◽  
Concrete Columns ◽  
Load Level ◽  
Reinforced Concrete Columns ◽  
Rectangular Columns

Composite materials like glass fiber-reinforced polymer (GFRP) is becoming widely acceptable to be used as a reinforcing material due to its high ultimate tensile strength-to-weight ratio and excellent resistance to corrosion. However, the seismic behavior of GFRP-reinforced concrete columns has not been fully investigated yet. This paper presents the results of a numerical analysis of full-size GFRP-RC rectangular columns under cyclic loading. The simulated column depicts the lower part of a building column between the foundation and the point of contra-flexure at the mid-height of the column. GFRP reinforcement properties and concrete modeling based on fracture energy have been incorporated in the numerical model. Experimental validation has been used to examine the accuracy of the constructed finite element models (FEMs) using a commercially available software. The validated FEM was used to perform a parametric study, considering several concrete strength values and axial load levels, to study its influence on the performance of the GFRP-reinforced concrete columns under cyclic loading. It was concluded that the hysteretic dissipation capacity deteriorates under high axial load level due to severe softening of the concrete. The FE results showed a substantial improvement of the lateral load-carrying capacities by increasing concrete compressive strength.

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