[1]王夏欣,程 欣,廖芳芳.冷弯方钢管截面轴压和压弯极限承载力研究.[J].西安建筑科技大学学报(自然科学版),2021,53(03):404-412.[doi:10.15986/j.1006-7930.2021.03.012]
 WANG Xiaxin,CHENG Xin,LIAO Fangfang.Research on ultimate bearing capacity of cold-formed steel square hollow sections[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition),2021,53(03):404-412.[doi:10.15986/j.1006-7930.2021.03.012]
点击复制

冷弯方钢管截面轴压和压弯极限承载力研究.()
分享到:

西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
53
期数:
2021年03期
页码:
404-412
栏目:
出版日期:
2021-06-28

文章信息/Info

Title:
Research on ultimate bearing capacity of cold-formed steel square hollow sections
文章编号:
1006-7930(2021)03-0404-09
作者:
王夏欣1程 欣1廖芳芳2
(1.太原理工大学 土木工程学院,山西 太原 030024; 2.长安大学 建筑工程学院,陕西 西安,710061)
Author(s):
WANG Xiaxin1CHENG Xin1LIAO Fangfang2
(1.Department of Civil Engineering,Taiyuan University of Technology,Taiyuan 030024,China; 2.School of Civil Engineering,Chang’an University,Xi’an 710061,China)
关键词:
冷弯方形截面 有效塑性宽度法 极限承载力 局部屈曲 单向压弯
Keywords:
cold-formed SHS the effective plastic width method ultimate capacity local buckling uniaxial bending
分类号:
TU391
DOI:
10.15986/j.1006-7930.2021.03.012
文献标志码:
A
摘要:
冷弯方钢管构件在建筑钢结构的应用愈加广泛,因此有必要对不同厚度冷弯方形截面的极限抗压和抗弯承载力进行研究.首先利用Abaqus建立了考虑初始几何缺陷、几何和材料非线性以及冷弯效应等因素影响的冷弯方钢管有限元模型,并通过试验校核验证了模型的准确性.基于该模型完成了冷弯方钢管在不同宽厚比和轴压比组配下的参数分析,探究其对极限承载力的影响.通过对构件破坏模态及截面应力发展全过程的分析,并基于不同宽厚比和轴压比下的四种应力分布模型,提出了用以计算冷弯方形截面极限承载力的有效塑性宽度法.最后将有效塑性宽度法与现行规范以及参数分析结果进行对比,证明了有效塑性宽度法的准确性与适用性.
Abstract:
Cold-formed square hollow section(SHS)members have been increasingly used in building steel structure and it’s necessary to study the ultimate compressive and bending capacities of SHS with different thickness.The Abaqus finite element model,considering the effect of initial geometric defects,geometric and material nonlinearity and cold-formed effect,was established first and verified by previous experimental studies.A series of parametric analysis on cold-formed SHS members was then conducted,with different section slenderness as well as different axial force ratios in order to investigate their influence to ultimate bearing capacities.Through analysis of failure modes and stress development process and based on four stress distribution models in the limit state,the effective plastic width method(EPM)was proposed to calculate the ultimate bearing capacities of cold-formed SHS.Compared with Chinese standards,European code and parametric study results,the proposed EPM is proved to provide more accurate design predictions and convenient calculations.

参考文献/References:

[1]侯刚,童乐为,陈以一,等.冷弯非薄壁方管材料特性试验及分析模型[J].工程力学.2013,30(2):372-378.
HOU Gang,TONG Lewei,CHEN Yiyi,et al.Testing and analysis model for material property of non-thin-walled cold-formed square hollow sections[J].Engineering Mechanics,2013,30(2):372-378.
[2]童乐为,霍涛,侯刚.冷弯中厚壁矩形管屈服强度设计公式研究[J].建筑结构学报.2018,39(12):81-90.
TONG Lewei,HUO Tao,HOU Gang.Research on design formula for yield strength of cold-formed rectangular steel tubes with medium-thick wall[J].Journal of Building Structures,2018,39(12):81-90.
[3]中华人民共和国建设部.建筑结构用冷弯矩形钢管:JG/T 178—2005[S].北京:中国标准出版社,2005.
Ministry of Construction of the People’s Republic of China.Cold-formed steel hollow sections for building structures:JG/T 178—2005[S].Beijing:China Standard Press,2005
[4]Cen.Eurocode 3:Design of steel structures -Part 1-1:General rules and rules for buildings[S].Brussels,2005.
[5]Cen.Eurocode 3:Design of steel structures -Part 1-5:Plated structural elements[S].Brussels: Rue de Stassart,2006.
[6]中华人民共和国住房与城乡建设部,中华人民共和国质量监督检验检疫总局.钢结构设计标准:GB50017-2017[S].北京:中国建筑工业出版社,2017.
Ministry of Housing and Urban-Rural Development of the People’s Republic of China,General Administration of Quality Supervision,Inspection and Quarantine of the People’s Republic of China.Standard for design of steel structures:GB50017-2017[S].Beijing:China Architecture & Building Press,2017.
[7]中华人民共和国建设部,中华人民共和国质量监督检验检疫总局.冷弯薄壁型钢结构技术规范:GB50018—2002[S].北京:中国计划出版社,2002.
Ministry of Construction of the People’s Republic of China,General Administration of Quality Supervision,Inspection and Quarantine of the People’s Republic of China.Technical code of cold-formed thin-wall steel structures:GB50018-2002[S].Beijing:China Planning Press,2002.
[8]姚行友,郭彦利,刘忠勇,等.冷弯薄壁型钢轴压矩形空心管试验研究及承载力分析[J].建筑技术.2015,46(9):853-856.
YAO Xingyou,GUO Yanli,LIU Zhongyong,et al.Experimental study and load-carrying capacity analysis of cold-formed thin-walled steel axially-compressed rectangular hollow steel columns[J].Architecture Technology,2015,46(9):853-856.
[9]温东辉,沈祖炎,李元齐,等.冷弯厚壁钢管短柱试验及规范公式比较[J].同济大学学报(自然科学版).2016,44(8):1190-1198.
WEN Donghui,SHEN Zuyan,LI Yuanqi,et al.experimental research on cold-formed thick-walled steel box stubs and comparison of results with related codes[J].Journal of Tongji University(Natural science),2016,44(8):1190-1198.
[10]李元齐,李功文,沈祖炎,等.冷弯厚壁型钢考虑冷弯效应的屈服强度计算方法研究[J].建筑结构学报.2015,36(5):1-7.
LI Yuanqi,LI Gongwen,SHEN Zuyan,et al.Modification method for yield strength of cold-formed thick-walled steel sections considering cold-forming effect[J].Journal of Building Structures,2015,36(5):1-7.
[11]胡盛德,李立新,周家林.冷弯厚壁矩形型钢管冷弯效应[J].建筑结构学报.2011,32(6):76-81.
HU Shengde,LI Lixin,ZHOU Jialin.Strain hardening of thick-walled cold formed steel rectangular hollow section[J].Journal of Building Structures,2011,32(6):76-81.
[12]侯刚.冷弯非薄壁方管柱轴压性能试验研究与数值分析[D].上海:同济大学,2011.
HOU Gang.Experimental research and numerical analysis on axial compression performance of cold-formed non-thin-walled square hollow sections[D].Shanghai:Tongji University,2011.
[13]沈祖炎,温东辉,李元齐,等.冷弯厚壁钢管截面不同部位材料特性分布模型[J].同济大学学报(自然科学版).2016,44(7):981-990.
SHEN Zuyan,WEN Donghui,LI Yuanqi,et al.Distribution patterns of material properties for cross-section of cold-formed thick-walled steel rectangular tubes[J].Journal of Tongji University(Natural Science),2016,44(7):981-990.
[14]GARDNER L,YUN X.Description of stress-strain curves for cold-formed steels[J].Construction and Building Materials.2018,189:527-538.
[15]SCHAFER B W,PEKOZ T.Direct strength prediction of cold-formed steel members using numerical elastic buckling solutions[C].//Fourteenth International Specialty Conference on Cold-Formed Steel Structures.St.Louis,Missouri U.S.A:[s.n.].1998.
[16]王春刚,孔德礼,张耀春.冷弯薄壁型钢构件承载力计算方法对比研究[J].建筑钢结构进展.2017,19(6):51-59.
WANG Chungang,KONG Deli,ZHANG Yaochun.Comparative study on calculation methods of bearing capacity of cold-formed thin-walled steel members[J].Progress in Steel Building Structures,2017,19(6):51-59.
[17]何帆,肖瑛,田常录.薄壁轴压方管极限承载力数值模拟与试验研究[J].机械制造与自动化.2018,47(5):149-151.
HE Fan,XIAO Ying,TIAN Changlu.Numerical simulation and test of limiting bearing capacity of axial compressive thin-walled tube[J].Machine Building & Automation,2018,47(5):149-151.
[18]YUN X,Gardner L.The continuous strength method for the design of cold-formed steel non-slender tubular cross-sections[J].Engineering Structures.2018,175:549-564.
[19]邓家明,宋令群.单轴受弯方矩形截面冷弯薄壁型钢构件设计的连续强度法[J].钢结构.2018,33(9):6-11.
DENG Jiaming,SONG Lingqun.Continuous strength method for rectangular section of cold-formed thin-walled steel sections subjected to uniaxial bending[J].Steel Construction,2018,33(9):6-11.
[20]NSEIR J.Development of a new design method for the cross-section capacity of steel hollow sections[D].[s.n.].2015.
[21]CHENG X,CHEN Y.Ultimate strength of H-sections under combined compression and uniaxial bending considering plate interaction[J].Journal of Constructional Steel Research.2018,143:196-207.
(编辑 吴海西 沈 波)

备注/Memo

备注/Memo:
收稿日期:2020-10-15 修改稿日期:2021-05-07
基金项目:国家自然科学基金面上项目(51978437); 山西省高等学校科技创新项目(2019L1005)
第一作者:王夏欣(1997-),女,硕士生,主要从事钢结构研究.E-mail:799749409@qq.com
通信作者:程 欣(1986-),女,博士,副教授,主要从事钢结构研究. E-mail:xchengtyut@126.com
更新日期/Last Update: 2021-06-28