Experimental Study on Residual Stress Distribution of H-shaped Steel Member before and after Exposure to Fire

葛勇; 王卫永

doi:10.13409/j.cnki.jdpme.2015.01.021

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Experimental Study on Residual Stress Distribution of H-shaped Steel Member before and after Exposure to Fire

更新时间：2025-12-11

- Experimental Study on Residual Stress Distribution of H-shaped Steel Member before and after Exposure to Fire
- Vol. 35, Issue 1, Pages: 126-131(2015)
- 作者机构：
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- DOI：10.13409/j.cnki.jdpme.2015.01.021
  CLC： U392.1
- Published：2015
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[1]葛勇,王卫永.H型截面钢构件受火前后残余应力分布试验研究[J].防灾减灾工程学报,2015,35(01):126-131.

葛勇, 王卫永. Experimental Study on Residual Stress Distribution of H-shaped Steel Member before and after Exposure to Fire[J]. 2015, 35(1): 126-131.
[1]葛勇,王卫永.H型截面钢构件受火前后残余应力分布试验研究[J].防灾减灾工程学报,2015,35(01):126-131. DOI： 10.13409/j.cnki.jdpme.2015.01.021.

葛勇, 王卫永. Experimental Study on Residual Stress Distribution of H-shaped Steel Member before and after Exposure to Fire[J]. 2015, 35(1): 126-131. DOI： 10.13409/j.cnki.jdpme.2015.01.021.

摘要

火灾高温会造成截面的残余应力重分布。为了得到钢构件在火灾后的极限承载力

需要对火灾后截面的残余应力分布进行研究。采用切条法对普通Q235钢热轧H型截面和高强度Q460钢焊接H型截面在火灾前后的残余应力分布进行试验研究

得到了未受火构件和受火后构件截面的残余应力分布大小和模式

并对受火前后的残余应力进行了对比。研究发现

火灾高温将大大降低构件的截面残余应力;火灾前后的分布模式没有变化

对普通Q235钢热轧H型截面

翼缘的分布模式是"V"型

腹板的分布模式是斜边的"U"型;对高强度Q460钢焊接H型截面

翼缘的分布模式是斜边的"W"型。

Abstract

The axial compression column curves were divided into 4according to residual stress distribution mode of different section shapes in current design code of steel structures（GB50017-2003）.It is shown that the influence of residual stress distribution on the load bearing capacity is very significant.The residual stress will redistribute due to the high temperature in fire.In order to obtain the load bearing capacity of steel members after exposure to fire

it is necessary to investigate the residual stress distribution in steel section after exposure to fire.The experimental study was carried out on residual stress of steel section made from Q235 and Q460steel before and after exposure to fire by employing sectioning method.The residual stress distribution mode was obtained and the comparison was made before and after exposure to fire.The study shows that the residual stress is reduced significantly by high temperature

but the distribution mode keeps same after exposure to fire.For hot-rolled Q235H-shaped section

the residual stress distribution mode is‘V’shaped in flange and is declining to‘U’for web

and for welded Q460 Hshaped section

the residual stress distribution mode is declining to‘W’shape in flange and is also declining to‘U’in web.

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Keywords

references

Q460高强钢焊接箱形压弯构件极限承载力试验研究 [J]. 李国强,闫晓雷,陈素文. 土木工程学报 . 2012(08)

Q460高强度焊接H型钢残余应力试验研究 [J]. 童乐为,赵俊,周锋,陈以一,胡晓萍. 工业建筑 . 2012(01)

Q460高强钢焊接箱形柱轴心受压极限承载力参数分析 [J]. 李国强,王彦博,陈素文,孙飞飞. 建筑结构学报 . 2011(11)

宽厚比超限的箱型截面焊接残余应力试验研究 [J]. 陈向荣,赵智云,姜圆圆. 土木工程学报 . 2010(S2)

Q420等边角钢轴压杆稳定性能研究（Ⅰ）——残余应力的试验研究 [J]. 班慧勇,施刚,邢海军,李茂华,石永久,王元清. 土木工程学报 . 2010(07)

残余应力测试方法的研究进展 [J]. 陈会丽,钟毅,王华昆,张家涛,起华荣. 云南冶金 . 2005(03)

The assessment of residual stresses in welded high strength steel box sections [J] . Yan-Bo Wang,Guo-Qiang Li,Su-Wen Chen. Journal of Constructional Steel Research . 2012

Residual stress. Part 1 – Measurement techniques [J] . Withers,Bhadeshia. Materials Science and Technology . 2001 (4)

Residual-stress measurement by the sectioning method [J] . N. Tebedge,G. Alpsten,L. Tall. Experimental Mechanics . 1973 (2)

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