Numerical Simulation Analysis of Uniaxial Compression Damage of Reinforced Concrete Columns Based on ABAQUS-Reference-Cited by-同舟云学术

Numerical Simulation Analysis of Uniaxial Compression Damage of Reinforced Concrete Columns Based on ABAQUS

Published:2023-05-16 Issue: Volume:51 Page:113-118
ISSN:2791-0210
Container-title:Highlights in Science, Engineering and Technology
language:
Short-container-title:HSET

Author:

Xiao Han,Zhang Kezhen,Du Jiale

Abstract

Reinforced concrete columns are widely used in construction projects and are mainly damaged by compression. In order to study the characteristics of the damage of reinforced concrete columns under uniaxial compression state, the uniaxial compression damage model of reinforced concrete columns is established by introducing the element deletion algorithm, concrete damage plasticity model (CDP) based on ABAQUS software. The results show that: (1) Under the load, the damage starts at the end of the specimen and expands to the middle, finally forming a through diagonal crack. The diagonal cracks are at 45° to the bottom surface. (2) At the beginning of load loading, the reinforcement has not yet reached the yield strength, and the restraining effect of the hoop on the concrete is not yet obvious. (3) With the increase of load, the hoop reinforcement and longitudinal reinforcement successively yielded. Local damage occurs in the concrete protective layer until the specimen fractures.

Publisher

Darcy & Roy Press Co. Ltd.

Reference11 articles.

1. Qiang Xu. Practical study on finite element reinforcement design method for reinforced concrete special structures [D]. Riverhead University, 2005.

2. Chong Xiao, Lian Luo, Hui Lv, Chao Feng. Proposed static analysis of reinforced concrete columns based on ABAQUS [J]. Journal of Nanchang Aviation University (Natural Science Edition),2022,36(02):63-71.

3. Xingwei Xue, Xing Pang, Junlong Zhou. Proposed static analysis of reinforced concrete columns based on OpenSEES [J]. Journal of Shenyang University of Technology,2019,41(02):211-216.

4. Haiyan Hu, Zhong Liu, Gen Chen, Jie Liu. Three-dimensional nonlinear numerical simulation analysis of cross-shaped reinforced concrete axially compressed columns [J]. Journal of Water Resources and Construction Engineering,2017,15(02):60-64.

5. Meng Liu, Wenwen Yin, Sengguang Yin, Kai Wen, Yingchao Liu. Finite element analysis of fire resistance of reinforced concrete columns after earthquake [J]. Journal of Disaster Prevention and Mitigation Engineering,2022,42(02):303-309.