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[1]闫维明,孔令旭,慈俊昌,等.大径宽比钢管混凝土叠合柱轴压试验[J].建筑科学与工程学报,2020,37(06):21-28.
 YAN Wei-ming,KONG Ling-xu,CI Jun-chang,et al.Experiment on Axial Compression of Concrete Filled Steel Tube Composite Columns with Large Diameter Width Ratio[J].Journal of Architecture and Civil Engineering,2020,37(06):21-28.
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《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

卷:
37卷
期数:
2020年06期
页码:
21-28
栏目:
出版日期:
2020-11-30

文章信息/Info

Title:
Experiment on Axial Compression of Concrete Filled Steel Tube Composite Columns with Large Diameter Width Ratio
文章编号:
1673-2049(2020)06-0021-08
作者:
闫维明1,孔令旭1,慈俊昌1,周大兴2
1. 北京工业大学 工程抗震与结构诊治北京市重点实验室,北京 100124; 2. 中铁建设集团有限公司,北京 100040
Author(s):
YAN Wei-ming1, KONG Ling-xu1, CI Jun-chang1, ZHOU Da-xing2
1. Beijing Key Laboratory of Earthquake Engineering and Structural Retrofit, Beijing University of Technology, Beijing 100124, China; 2. China Railway Construction Group Co., Ltd., Beijing 100040, China
关键词:
钢管混凝土叠合柱 轴压性能 尺寸效应 材料强度 折减系数
Keywords:
concrete filled steel tube composite column axial compression performance size effect material strength reduction factor
分类号:
TU312
DOI:
-
文献标志码:
A
摘要:
为研究大径宽比钢管混凝土叠合柱的轴压性能,设计制作了外径在400~600 mm范围内、含钢管率在3.70%~6.75%范围内的6根大径宽比钢管混凝土叠合短柱试件,并对其进行轴压试验。使用亚克力棒测量了钢管内部混凝土的应变,给出了不同柱径试件各部位的典型应变增长曲线。结合试验结果,引入考虑试件尺寸效应的混凝土材料强度折减系数,提出了适应大径宽比钢管混凝土叠合柱的极限承载力计算公式。结果表明:大径宽比叠合柱达到峰值荷载后承载力下降缓慢,具有较好的延性; 含钢管率的提升直接增强叠合柱的承载力,含钢管率为6.08%的试件比含钢管率为3.70%的试件承载力高27.3%; 不同尺寸试件的破坏特点存在差异,一般表现为尺寸越大,破坏越显脆性,但不同尺寸试件的各部位典型应变增长模式基本一致; 叠合柱外部钢筋混凝土在加载中后期对承载力贡献较小。
Abstract:
In order to study the axial compression performance of concrete filled steel tube composite columns(CFSTCC)with larger aspect ratio,the axial compression test on six CFSTCCs with large diameter width ratio was completed.The diameter of the composite column was in the range of 400-600 mm and the steel pipe ratio of the composite column was in the range of 3.70%-6.75%. The strain of concrete inside the steel tube was measured with some acrylic rods, and the curves of typical strain growth in different parts of specimens with different diameters were given. Combined with the test results and size effects, the material strength reduction factor of concrete was introduced into the in composite columns, and the calculation formula of the ultimate bearing capacity for the CFSTCC with large diameter width ratio was proposed.The results show that the bearing capacity of CFSTCC with large diameter width ratio decreases slowly after reaching the peak load and has good ductility.The increasing of steel tube ratio directly enhances the bearing capacity of CFSTCC, and the bearing capacity of the specimen with 6.08% steel tube ratio is 27.3% higher than that of the specimen with 3.70% steel tube ratio. The specimens with different sizes have their own failure characteristics. Generally, the larger the size is, the more brittle the failure is, but the typical strain growth patterns of different size specimens are basically the same.The contribution of reinforced concrete outside the composite column to the bearing capacity is relatively small in the middle and later period of loading.

参考文献/References:

[1] 林立岩,李庆钢.钢管混凝土叠合柱的设计概念与技术经济性分析[J].建筑结构,2008,38(3):17-21,41. LIN Li-yan,LI Qing-gang.Design Concept and Analysis of Technical Economy for Steel Tube-reinforced Concrete Column[J].Building Structure,2008,38(3):17-21,41.
[2]陈周熠,赵国藩,易伟建,等.带圆钢管劲性高强混凝土轴压短柱试验研究[J].大连理工大学学报,2005,45(5):687-691. CHEN Zhou-yi,ZHAO Guo-fan,YI Wei-jian,et al.Experimental Research on Behavior of High Strength Concrete Column Reinforced with Concrete-filled Steel Tube Under Axial Compression[J].Journal of Dalian University of Technology,2005,45(5):687-691.
[3]康洪震,钱稼茹.钢管混凝土叠合柱轴压强度试验研究[J].建筑结构,2006,36(增):913-916. KANG Hong-zhen,QIAN Jia-ru.An Experiment Study of Axial Compressive Strength of Concrete Filled Steel Tube Composite Columns[J].Building Structure,2006,36(S),913-916.
[4]林拥军.配有圆钢管的钢骨混凝土轴心受压柱的试验研究[C]//崔京浩.第十届全国结构工程学术会议论文集第Ⅱ卷.北京:《工程力学》期刊社,2001:148-153. LIN Yong-jun.Experimental Study on Steel Reinforced Concrete Columns with Circular Steel Tubes Under Axial Compression[C]//CUI Jing-hao.Proceedings of the 10th National Academic Conference on Structural Engineering,Volume Ⅱ.Beijing:Periodical Office of Engineering Mechanics,2001:148-153.
[5]蔡 健,谢晓锋,杨 春,等.核心高强钢管混凝土柱轴压性能的试验研究[J].华南理工大学学报:自然科学版,2002,30(6):81-85. CAI Jian,XIE Xiao-feng,YANG Chun,et al.An Experimental Research on the Composite Column with Core of High Strength Concrete Filled Steel Tube Under Axial Compression Loading[J].Journal of South China University of Technology:Natural Science Edition,2002,30(6):81-85.
[6]刘 阳,郭子雄,贾磊鹏,等.核心钢管混凝土叠合短柱轴压性能及设计方法研究[J].建筑结构学报,2015,36(12):135-142. LIU Yang,GUO Zi-xiong,JIA Lei-peng,et al.Experimental Study on Axial Compression Performance and Design Method of Core Steel Tube Reinforced Concrete Short Columns[J].Journal of Building Structures,2015,36(12):135-142.
[7]黄用军,尧国皇,宋宝东,等.钢管混凝土叠合柱在深圳卓越·皇岗世纪中心项目中的应用[J].广东土木与建筑,2008(7):3-5. HUANG Yong-jun,YAO Guo-huang,SONG Bao-dong,et al.The Application of CFST Composite Columns in the Project of Zhuoyue Huanggang Century Center in Shenzhen[J].Guangdong Architecture Civil Engineering,2008(7):3-5.
[8]王爱军,戴苏敏.某超高层建筑钢管混凝土叠合柱施工技术[J].施工技术,2009,38(12):46-49. WANG Ai-jun,DAI Su-min.Construction Technology of Concrete Filled Steel Tubular Laminated Column in Some Super High-rise Building[J].Construction Technology,2009,38(12):46-49.
[9]徐世明,周建新.钢管混凝土叠合柱在湖州东吴国际广场的应用[J].浙江建筑,2018,35(5):36-39,44. XU Shi-ming,ZHOU Jian-xin.Application of the Steel Pipe Concrete Laminated Column in Dongwu International Plaza of Huzhou[J].Zhejiang Construction,2018,35(5):36-39,44.
[10]徐鹏飞,张 公,李晓璐,等.不同壁厚钢管混凝土短柱轴压性能试验研究[J].北京工业大学学报,2017,43(10):1514-1520. XU Peng-fei,ZHANG Gong,LI Xiao-lu,et al.Experimental Study on Axial Compression Performance of Concrete Filled Steel Tube Short Column with Different Wall Thicknesses[J].Journal of Beijing University of Technology,2017,43(10):1514-1520.
[11]张素梅,郭兰慧,叶再利,等.方钢管高强混凝土轴压短柱的试验研究[J].哈尔滨工业大学学报,2004,36(12):1610-1614. ZHANG Su-mei,GUO Lan-hui,YE Zai-li,et al.Experimental Research on High Strength Concrete-filled SHS Stub Columns Subjected to Axial Compressive Load[J].Journal of Harbin Institute of Technology,2004,36(12):1610-1614.
[12]王力尚,钱稼茹.钢管高强混凝土应力-应变全曲线试验研究[J].建筑结构,2004,34(1):11-12,19. WANG Li-shang,QIAN Jia-ru.Experimental Study on Stress-strain Curve of High Strength Concrete Filled Steel Tube[J].Building Structure,2004,34(1):11-12,19.
[13]钱稼茹,程丽荣,周栋梁.普通箍筋约束混凝土柱的中心受压性能[J].清华大学学报:自然科学版,2002,42(10):1369-1373. QIAN Jia-ru,CHENG Li-rong,ZHOU Dong-liang.Behavior of Axially Loaded Concrete Columns Confined with Ordinary Hoops[J].Journal of Tsinghua University:Science and Technology,2002,42(10):1369-1373.
[14]杜修力,金 浏,李 冬.混凝土与混凝土结构尺寸效应述评(Ⅰ):材料层次[J].土木工程学报,2017,50(9):28-45. DU Xiu-li,JIN Liu,LI Dong.A State-of-the-art Review on the Size Effect of Concretes and Concrete Structures(Ⅰ):Concrete Materials[J].China Civil Engineering Journal,2017,50(9):28-45.
[15]杜修力,符 佳,张建伟.钢筋混凝土柱轴心受压性能尺寸效应的大比尺试验研究[J].土木工程学报,2010,43(增2):1-8. DU Xiu-li,FU Jia,ZHANG Jian-wei.The Experimental Study on Size Effect of the Large-size Reinforced Concrete Column Under Axial Loading[J].China Civil Engineering Journal,2010,43(S2):1-8.
[16]陈 鹏,王玉银,刘昌永,等.圆钢管混凝土轴压性能尺寸效应试验研究[J].建筑结构学报,2017,38(增1):249-257. CHEN Peng,WANG Yu-yin,LIU Chang-yong,et al.Experimental Study on Size Effect of Circular Concrete-filled Steel Tubular Columns Subjected Axial Compression[J].Journal of Building Structures,2017,38(S1):249-257.
[17]CECS 188:2005,钢管混凝土叠合柱结构技术规程[S]. CECS 188:2005,Technical Specification for Steel Tube-reinforced Concrete Column Structure[S].
[18]DING F X,YING X Y,ZHOU L C,et al.Unified Calculation Method and Its Application in Determining the Uniaxial Mechanical Properties of Concrete[J].Frontiers of Architecture and Civil Engineering in China,2011,5(3):381-393.
[19]韩林海.钢管混凝土结构—理论与实践[M].2版.北京:科学出版社,2007. HAN Lin-hai.Concrete Filled Steel Tubular Structures:Theory and Practice[M].2nd ed.Beijing:Science Press,2007.
[20]BLANKS R F,MCNAMARA C C.Mass Concrete Tests in Large Cylinders[J].Journal Proceedings,1935,31(1):280-303.
[21]陆新征,张万开,李 易,等.方钢管混凝土短柱轴压承载力尺寸效应[J].沈阳建筑大学学报:自然科学版,2012,28(6):974-980. LU Xin-zheng,ZHANG Wan-kai,LI Yi,et al.Size Effect of Axial Strength of Concrete-filled Square Steel Tube Columns[J].Journal of Shenyang Jianzhu University:Natural Science,2012,28(6):974-980.

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备注/Memo

备注/Memo:
收稿日期:2020-03-02 基金项目:国家自然科学基金项目(10004012201902) 作者简介:闫维明(1960-2020),男,黑龙江兰西人,研究员,博士研究生导师,工学博士,E-mail:yanwm@bjut.edu.cn。
更新日期/Last Update: 1900-01-01