[1]武永彩,唐光辉,屈讼昭,等.Q690耐张塔多环板空间节点力学性能研究[J].西安建筑科技大学学报(自然科学版),2021,53(03):330-336.[doi:10.15986/j.1006-7930.2021.03.003]
 WU Yongcai,TANG Guanghui,QU Songzhao,et al.Research on mechanical performance of space joints with multi-annular plates of Q690 tension tower[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition),2021,53(03):330-336.[doi:10.15986/j.1006-7930.2021.03.003]
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Q690耐张塔多环板空间节点力学性能研究()
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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:
330-336
栏目:
出版日期:
2021-06-28

文章信息/Info

Title:
Research on mechanical performance of space joints with multi-annular plates of Q690 tension tower
文章编号:
1006-7930(2021)03-0330-07
作者:
武永彩1唐光辉2屈讼昭3王建涛2
(1.西安思源学院 城市建设学院,陕西 西安710038; 2.西安交通大学 土木工程系,陕西 西安710049; 3.河南城建学院 土木与交通工程学院,河南 平顶山467036)
Author(s):
WU Yongcai1TANG Guanghui2QU Songzhao3WANG Jiantao2
(1.School of Urban Construction,Xi’an Siyuan University,Xi’an 710038,China; 2.Department of Civil Engineering,Xi’an Jiaotong University,Xi’an 710049,China; 3.School of Civil and Transportation Engineering,Henan University of Urban Construction,Pingdingshan 467036,China)
关键词:
Q690高强钢 多环板 空间节点 力学性能 空间耦合加载
Keywords:
Q690 high-strength steel multi-annular plates space joints mechanical performance space coupled loading
分类号:
TU391
DOI:
10.15986/j.1006-7930.2021.03.003
文献标志码:
A
摘要:
多环板空间节点杆件交汇繁多,应力分布复杂,为研究高强钢多环板空间节点的受力性能,开展Q690高强钢SJC1型耐张塔足尺试验,并建立了变坡和横担处空间节点的有限元模型,基于大风等不利工况研究了不同加载模式下空间节点的力学性能,揭示其空间耦合受力机理.分析结果表明:断线和大风等不利工况下环板或加劲肋与主材连接处、槽形插板与支管连接处应力较大,应严格控制焊接质量,防止节点由于焊缝开裂而破坏; 在大风工况下所有杆件同比例加载至250%时,变坡和横担处节点分别在环板与主管交界处的99°和90°方向出现最大应力,横担节点设计安全冗余度较高; 变化关键受力杆件加载比例,环板与主管交界处的应力增长主要沿支管轴线方向与节点板相交位置处分布,应力水平与支管所承受的荷载正相关,空间耦合加载下不同支管间的环板与主管交界处应力增长变化较小.
Abstract:
Many members intersect at the space joints with multi-annular plates,resulting in an intricate stress distribution. To examine the mechanical performance of high-strength space joints with multi-annular plates,a full-scale test was conducted on a high-strength Q690 SJC1 tension tower; subsequently,the finite element models of space joints at the varied slope locations and cross arms were established to investigate the mechanical performance of various loading protocols based on the adverse conditions,i.e. the strong wind,and then the space coupled effect was revealed. The analytical results indicate that: the locations of the ring plate or stiffened ribs connected to the chord members as well as the regions between the C-shaped insert plates and branch members display the larger stress under the adverse conditions of broken wires and strong wind. Therefore,strict measures should be adopted to ensure the quality of weld seams for preventing joint damage due to weld cracking; for the joints of varied slope locations and cross arms,the maximum stress respectively occurs in 99° and 90° directions of intersection regions of ring plats and chord members when all members are maintained in a constant loading ratio until the level of 250% under the strong wind loading; moreover,the space joints in the cross arms behave a higher security redundancy; the stress increases of intersection regions between the annular plates and chord members mainly distribute in the intersection of gusset plate along axes of branch members while altering the loading ratios between key members,in which the stress levels are positively correlated with the loads of branch members,and the intersection region between various branch members perform a slow stress increase.

参考文献/References:

[1]杨靖波,李茂华,杨风利,等.我国输电线路杆塔结构研究新进展[J].电网技术,2008,32(22):77-83.
YANG Jingbo,LI Maohua,YANG Fengli,et al. New advances in the study of transmission tower structure of China[J]. Power System Technology,2008,32(22): 77-83.
[2]李正良,刘红军,张东英,等.Q460高强钢在1000 kV杆塔的应用[J].电网技术,2008,32(24):1-5.
LI Zhengliang,LIU Hongjun,ZHANG Dongying,et al. Application of high-strength steel Q460 in 1000kV transmission towers[J]. Power System Technology,2008,32(24): 1-5.
[3]汪楚清,郭咏华,孙清,等.Q690钢管塔柔性法兰极限承载力试验研究及有限元分析[J].工程力学,2013,30(3):206-213.
WANG Chuqing,GUO Yonghua,SUN Qing,et al. Experimental and numerical analysis on the ultimate bearing capacity of Q690 flange joint used in steel tube towers[J]. Engineering Mechanics,2013,30(3): 206-213.
[4]郭咏华,张斌,张建明.Q690钢管塔试验及工程应用[M].北京:中国电力出版社,2013.
GUO Yonghua,ZHANG Bin,ZHANG Jianming. Testing and engineering application of Q690 transmission steel tubular tower[M]. Beijing: China Hectric Power Press,2013.
[5]SAEKO S. Experimental study on strength of tubular steel structures[J]. Japanese Society of Steel Construction,1974,102(10): 37-68.
[6]CHENG J J R,KULAK G L,KHOO H. Strength of slotted tubular tension members[J]. Canadian Journal of Civil Engineering,1998,25(6): 982-991.
[7]KIM W B. Ultimate strength of tube-gusset plate connections considering eccentricity[J]. Engineering Structures,2001,23(11): 1418-1426.
[8]SAUCEDO G M,PACKER J A,WILLIBALD S. Parametric finite element study of slotted end connections to circular hollow sections[J]. Engineering Structures,2006,28(5): 1956-1971.
[9]LING T W,ZHAO X L,MAHAIDIA R A,et al. Investigation of shear lag failure in gusset-plate welded structural steel hollow section connections[J]. Journal of Constructional Steel Research,2007,63(5): 293-304.
[10]SAUCEDO G M,PACKER J A,WILLIBALD S,et al. Gusset plate connections to circular hollow section braces under inelastic cyclic loading[J]. Journal of Structural Engineering,ASCE,2008,134(7):1252-1258.
[11]HASSAN M M,MOOTY M A,MOURAD S,et al. Experimental and numerical study of one-sided branch plate-to-circular hollow section connections[J]. Steel and Composite Structures,2015,19(4):877-895.
[12]李正良,韩枫,白强,等. 特高压输电线路钢管塔管-插板节点受弯性能[J]. 土木建筑与环境工程,2009,31(2):18-22.
LI Zhengliang,HAN Feng,BAI Qiang,et al. Bending performance of tube-gusset joint in steel tubular tower for extra-high-voltage transmission line[J]. Journal of Civil,Architectural & Environmental Engineering,2009,31(2): 18-22.
[13]刘红军,李正良,李茂华. 钢管输电塔环型加肋节点极限承载力研究[J]. 工程力学,2010,27(10):65-73.
LIU Hongjun,LI Zhengliang,LI Maohua. Study of ultimate strength of steel tubular joint with annular ribbed plate of transmission towers[J]. Engineering Mechanics,2010,27(10): 65-73.
[14]刘红军,李正良. 基于钢管控制的插板连接节点受弯性能研究[J]. 土木工程学报,2011,44(2): 21-27.
LIU Hongjun,LI Zhengliang. Bending performance of tube-gusset joint in steel tubular tower based on steel tube control[J]. China Civil Engineering Journal,2011,44(2): 21-27.
[15]陈誉,黄勇,冯然. X形圆管斜插板节点轴压性能试验研究[J]. 建筑结构学报,2015,36(3):90-97.
CHEN Yu,HUANG Yong,FENG Ran. Experimental study on compressive property of circular tube-skewed gusset X-joints[J]. Journal of Building Structures,2015,36(3): 90-97.
[16]高春彦,史治宇,牛丽华,等. 圆钢管混凝土K型焊接管板节点试验研究和有限元分析[J]. 中南大学学报(自然科学版),2017,48(3):769-778.
GAO Chunyan,SHI Zhiyu,NIU Lihua,et al. Experimental study and finite element analysis of concrete-filled circular steel tubular K-type welded tube-gusset joints[J]. Journal of Central South University(Science and Technology),2017,48(3): 769-778.
[17]QU S,WU X,SUN Q. Experimental study and theoretical analysis on the ultimate strength of high-strength-steel tubular K-Joints[J]. Thin-Walled Structures,2018,123: 244-254.
[18]SUN Q,QU S,WU X. Ultimate load capacity analysis of Q690 high-strength steel KK-Type tube-gusset plate connections[J]. Journal of Structural Engineering,2019,145(8): 1-15.
(编辑 吴海西 沈 波)

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备注/Memo

备注/Memo:
收稿日期:2020-11-03 修改稿日期:2021-05-06
基金项目:陕西省教育厅专项科研计划项目(18JK1105); 河南省高等学校重点科研基金项目(20A560007)
第一作者:武永彩(1982-),女,硕士,副教授,研究方向为高强高性能钢结构及计算分析理论.E-mail:921231003@qq.com
通信作者:王建涛(1991-),男,博士,助理研究员,研究方向为高强高性能钢-混凝土组合结构.E-mail:sdwfttw@163.com
更新日期/Last Update: 2021-06-28