Computational Model and Influencing Factor Analysis of Reinforced Concrete Walls under Fire

ZHENG Yong-qian; CAI Xue-feng

doi:10.11835/j.issn.1674-4764.2011.01.006

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Computational Model and Influencing Factor Analysis of Reinforced Concrete Walls under Fire

更新时间：2023-11-28

- Computational Model and Influencing Factor Analysis of Reinforced Concrete Walls under Fire
- Journal of Civil and Environmental Engineering Vol. 33, Issue 1, Pages: 24-30(2011)
- 作者机构：
  
  1. 福建工程学院土木工程系,福州,350108
  2. 福州大学土木工程学院,福州,350108
- 作者简介：
- 基金信息：
- DOI：10.11835/j.issn.1674-4764.2011.01.006
  CLC：
- Published：2011
- 稿件说明：
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ZHENG Yong-qian, CAI Xue-feng. Computational Model and Influencing Factor Analysis of Reinforced Concrete Walls under Fire[J]. Journal of Civil and Environmental Engineering, 2011, 33(1): 24-30.
DOI：

ZHENG Yong-qian, CAI Xue-feng. Computational Model and Influencing Factor Analysis of Reinforced Concrete Walls under Fire[J]. Journal of Civil and Environmental Engineering, 2011, 33(1): 24-30. DOI： 10.11835/j.issn.1674-4764.2011.01.006.

摘要

采用有限元软件ABAQUS对火灾下钢筋混凝土墙的变形全过程进行了计算

计算结果与以往实验结果吻合较好。在此基础上

系统分析了轴压比、侧向荷载比、高厚比、墙厚度、混凝土抗压强度、钢筋屈服强度、配筋率和混凝土保护层厚度对钢筋混凝土墙变形和耐火极限的影响规律。研究结果表明

受火过程中

钢筋混凝土墙在无侧向荷载且轴压比或墙厚度较大、高厚比较小等情况下容易发生反向挠度现象

在工程常用参数范围内

墙耐火极限随着轴压比、侧向荷载比、高厚比、钢筋屈服强度或配筋率的增加而减小

随着墙厚度或混凝土强度的增加而增加。

Abstract

The finite element software ABAQUS is used to calculate the deformation of reinforced concrete walls under fire. The calculated results agree well with previous experimental results. Based on the finite element model

the influences of such parameters as axial load level

lateral load level

height-to-thickness ratio

wall thickness

concrete compressive strength

steel reinforcement yield strength

steel reinforcement ratio and concrete protection thickness on deformation and fire resistance of walls are analyzed systematically. It is found that

under the conditions of big axial load level or wall thickness without lateral load and small height-to-thickness ratio

the reverse deflection of reinforced concrete walls in fire is apt to occur. Within the work range of parameters in common use

the fire resistance of walls decreases with the increase of axial load level

lateral load level

height-to-thickness ratio

steel reinforcement yield strength or steel reinforcement ratio

and increases with the increase of wall thickness or concrete compressive strength.

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