Mechanical Behavior of Rectangular Steel-Reinforced ECC/Concrete Composite Column under Eccentric Compression 被引量：2

Mechanical Behavior of Rectangular Steel-Reinforced ECC/Concrete Composite Column under Eccentric Compression

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摘要 In order to improve the seismic performance, deformation ability and ultimate load-carrying capacity of columns with rectangular cross section, engineered cementitious composite(ECC) is introduced to partially substitute concrete in the edge zone of reinforced concrete columns and form reinforced ECC/concrete composite columns.Firstly, based on the assumption of plane remaining plane and the simplified constitutive models, the calculation method of the load-carrying capacity of reinforced ECC/concrete columns is proposed. The stress and strain distributions and crack propagation of the composite columns in different states of eccentric compressive loading are analyzed. Then, nonlinear finite element analysis is conducted to study the mechanical performance of reinforced ECC/concrete composite columns with rectangular cross section. It is found that the simulation results are in good agreement with the theoretical results, indicating that the proposed method for calculating the load-carrying capacity of concrete/ECC composite columns is valid. Finally, based on the proposed method, the effects of ECC thickness, compressive strength of concrete and longitudinal reinforcement ratio on the mechanical performance of reinforced ECC/ concrete composite columns are analyzed. Calculation results indicate that increasing the thickness of ECC layer or longitudinal reinforcement ratio can effectively increase the ultimate load-carrying capacity of the composite column with both small and large eccentricity, but increasing the strength of concrete can only increase the ultimate loadcarrying capacity of the composite column with small eccentricity. In order to improve the seismic performance, deformation ability and ultimate load-carrying capacity of columns with rectangular cross section, engineered cementitious composite （ECC） is introduced to partially substitute concrete in the edge zone of reinforced concrete columns and form reinforced ECC/concrete composite columns. Firstly, based on the assumption of plane remaining plane and the simplified constitutive models, the calculation method of the load-carrying capacity of reinforced ECC/concrete columns is proposed. The stress and strain distribu- tions and crack propagation of the composite columns in different states of eccentric compressive loading are ana- lyzed. Then, nonlinear finite element analysis is conducted to study the mechanical performance of reinforced ECC/concrete composite columns with rectangular cross section. It is found that the simulation results are in good agreement with the theoretical results, indicating that the proposed method for calculating the load-carrying capacity of concrete/ECC composite columns is valid. Finally, based on the proposed method, the effects of ECC thickness, com- pressive strength of concrete and longitudinal reinforcement ratio on the mechanical performance of reinforced ECC/ concrete composite columns are analyzed. Calculation results indicate that increasing the thickness of ECC layer or longitudinal reinforcement ratio can effectively increase the ultimate load-carrying capacity of the composite column with both small and large eccentricity, but increasing the strength of concrete can only increase the ultimate Ioad- carrying capacity of the composite column with small eccentricity.

作者潘金龙鲁冰顾大伟夏正昊夏天阳

机构地区 Key Laboratory of Concrete and Pre-stressed Concrete Structures of Ministry of Education

出处《Transactions of Tianjin University》 EI CAS 2015年第3期269-277,共9页 天津大学学报（英文版）

基金 Supported by the National Natural Science Foundation of China(No.51278118) the Program for Special Talent in Six Fields of Jiangsu Province(No.2011JZ010) the Natural Science Foundation of Jiangsu Province(No.BK2012756) the Undergraduate Innovation Program(No.T13052007)

关键词钢筋混凝土柱矩形截面柱偏心受压 ECC 组合柱力学行为极限承载能力水泥复合材料 engineered cementitious composite （ECC） steel-reinforced concrete ECC/concrete composite column eccentric compression behavior ultimate load-carrying capacity

分类号 O347 [理学—固体力学]

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参考文献9

1Li Zongjin. Advanced Concrete Technology[M]. John Wiley & Sons, New Jersey, USA, 2011. 13-14.
2董洛廷,潘金龙,袁方,梁坚凝.钢筋增强高延性ECC/混凝土组合梁的受弯性能(英文)[J].Journal of Southeast University(English Edition),2012,28(2):195-202. 被引量：8
3Li V C, Leung C K Y. Steady-state and multiple cracking of short random fiber composites [J]. ASCE Journal of En- gineering Mechanics, 1992, 188 (11) : 2246-2264.
4Li M, Li V C. Behavior of ECC/concrete layered repair system under drying shrinkage conditions [J]. Restoration of Buildings and Monuments, 2006, 12 (2) : 143-160.
5Leung C K Y, Cheung Y N, Zhang J. Fatigue enhancement of concrete beam with ECC layer [J]. Cement and Con- crete Research, 2007, 29 (6) : 456-473.
6颜嫄,许赟,汪逊,潘金龙.钢筋增强ECC双筋梁受弯性能研究(英文)[J].Journal of Southeast University(English Edition),2013,29(1):66-72. 被引量：3
7Li M, Ranade R, Kan L et al. On improving the infrastructure service life using ECC to mitigate rebar corrosion [C]. In: 2nd International Symposium on Service Life Design for Infrastructure. Paris, France, 2010. 773- 782.
8Ministry of Housing and Urban-Rural Development of the People's Republic of China. GB 50010-2010 Code for De- sign of Concrete Structures [S]. China Architecture and Building Press, Beijing, China, 2010 (in Chinese).
9Yuan Fang, Pan Jinlong, Leung C K Y. Flexural behaviors of ECC and concrete/ECC composite beams reinforced with basalt fiber-reinforced polymer [J]. Journal of Com- posites.for Construction, 2013, 17 (5) : 591-602.

二级参考文献10

1LI Victor C.高延性纤维增强水泥基复合材料的研究进展及应用[J].硅酸盐学报,2007,35(4):531-536. 被引量：189
2Li Zongjin. Advanced concrete technology [ M]. New Jersey: John Wiley & Sons, 2011 : 13 - 14.
3Li V C, Leang C K Y. Steady state and multiple cracking of short random fiber composites [ J]. ASCE Journal of Engineering Mechanics, 1992, 188(11) : 2246 -2264.
4Kim Y Y, Fischer G, Li V C. Performance of bridge deck link slabs designed with ductile engineered cementi- tious composite [ J]. ACI Structural Journal, 2004, 101 (6): 792-801.
5Lepech M D, Li V C. Application of ECC for bridge deck link slabs [ J]. Materials and Structures, 2009, 42 (9): 1185-1195.
6Lepech M D, Li V C. Sustainable pavement overlays using engineered cementitious composites [ J]. Interna- tional Journal of Pavement Research and Technology, 2010. 3(5): 241-250.
7Christopher K Y L, CheungY N, Zhang J. Fatigue en- hancement of concrete beam with ECC layer [ J]. Cement and Concrete Research, 2007, 29(6):465 -473.
8Kesner K, Billington S L. Investigation of infill panels made from engineered cementitious composites for seismic strengthening and retrofit [ J]. ASCE Journal of Structural Engineering, 2005, 131(11) : 1712 - 1720.
9Billington S L. Damage-tolerant cement based materials for performance based earthquake engineering design: research needs[ C]//Proceedings of the Fifth Interna- tional Conference on Fracture Mechanics of Concrete and Concrete Structures. Vail, Colorado, USA, 2004 : 53 - 60.
10Maalej M, Li V C. Flexural/tensile-strength ratio in engi- neered cementitious composites [ J]. Journal of Materials in Civil Engineering, 1994, 6(4) : 513 - 528.

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1高淑玲,郭亚栋,吴耀泉,邱华芳.高强钢筋混凝土/ECC叠合梁受弯性能及仿真分析[J].建筑科学,2017,33(1):44-51. 被引量：3
2高淑玲,郭亚栋,吴耀泉.ECC/钢筋混凝土叠合梁正截面受弯承载力试验与理论研究[J].土木建筑与环境工程,2017,39(2):123-131. 被引量：2
3高淑玲,郭亚栋,吴耀泉.钢筋混凝土/ECC叠合梁起裂荷载计算理论[J].土木工程与管理学报,2017,34(4):14-18. 被引量：1
4王冲,高淑玲.基于正交试验设计的PVA-ECC基体组分对其力学性能影响的显著性水平研究[J].混凝土,2018(11):52-55. 被引量：2
5李福海,李瑞,姜怡林,何肖云峰,胡丁涵.弯曲荷载作用下PP-ECC梁裂缝发展规律试验研究[J].天津大学学报（自然科学与工程技术版）,2020,53(11):1156-1166. 被引量：2
6游颖,张泽涛,刘学刚,王君.空间曲面钢结构临时支撑提前拆除方案及监测[J].工业建筑,2021,51(2):106-112. 被引量：3
7唐文涵,何淅淅.工程水泥基复合材料叠合层对梁受弯性能的影响[J].建筑结构,2022,52(6):76-80. 被引量：2
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1俞家欢,贾还来,赵同峰,刘明.ECC长柱试验研究[J].工业建筑,2012,42(S1):558-562. 被引量：2
2曹明莉,许玲,张聪.高延性纤维增强水泥基复合材料的微观力学设计、性能及发展趋势[J].硅酸盐学报,2015,43(5):632-642. 被引量：57
3张远淼,余江滔,陆洲导,张锐.ECC修复震损剪力墙抗震性能试验研究[J].工程力学,2015,32(1):72-80. 被引量：28
4LI Victor C.高延性纤维增强水泥基复合材料的研究进展及应用[J].硅酸盐学报,2007,35(4):531-536. 被引量：189
5徐世烺,李贺东.超高韧性水泥基复合材料直接拉伸试验研究[J].土木工程学报,2009,42(9):32-41. 被引量：123
6李庆华,徐世烺.超高韧性水泥基复合材料在受弯构件中应用研究[J].工程力学,2010,27(A02):235-239. 被引量：6
7徐世烺,王楠,蔡新华.集中荷载作用下后浇UHTCC简支双向混凝土板的试验研究[J].土木工程学报,2011,44(8):33-41. 被引量：5
8彭明强,李国友,范磊,李锐,王明铭.国产PVA纤维用于高韧性纤维增强水泥基复合材料的试验研究[J].混凝土与水泥制品,2016(2):58-62. 被引量：10
9卜良桃,马益标.PVA-ECC钢筋网加固钢筋混凝土梁截面刚度计算[J].铁道科学与工程学报,2017,14(3):514-519. 被引量：8
10金浏,李平,杜修力.考虑尺寸影响的箍筋约束混凝土轴压本构模型[J].土木与环境工程学报（中英文）,2020,42(1):81-89. 被引量：6

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1陈杨,章红梅.高延性纤维增强水泥基复合材料在建筑结构中的应用现状[J].结构工程师,2017,33(3):208-221. 被引量：12
2王新玲,李世伟,金蕾蕾,范家俊.高强不锈钢绞线网/ECC约束高强混凝土受压本构模型[J].工程力学,2023,40(9):153-160.

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1顾俊.纤维增强塑料在建筑桥梁结构裂缝修复中的应用[J].塑料工业,2018,46(12):6-10. 被引量：5
2康华.地铁高架车站型钢混凝土转换短梁试验研究[J].铁道标准设计,2018,62(7):139-142. 被引量：2
3陈善富,陈静芬,杨凤祥,刘志明.双轴受压状态下的高延性纤维增强水泥基复合材料本构模型[J].工程力学,2020,37(12):87-98. 被引量：2
4雷海涛,许圆.建筑用皮粉基高分子复合材料制备研究[J].合成材料老化与应用,2021,50(4):86-88. 被引量：1
5姚国艳.高速公路收费站超强水泥混凝土薄层罩面技术浅探[J].建筑与装饰,2021(28):167-170. 被引量：1
6唐英丰.采用水泥基复合材料(ECC)的高层建筑抗震连梁设计研究[J].广东土木与建筑,2022,29(4):74-77.
7何华庭,李庚英,张敏,王海洋.硅灰掺量对ECC材料性能的影响研究[J].广东建材,2022,38(5):7-9.
8严卫华,韩沐阳,葛文杰.碳纤维布增强ECC-混凝土复合梁受弯性能分析[J].建筑科学,2022,38(9):46-56. 被引量：2
9刘泽军,王昌野,李艳,张文彬.温度对PVA/ECC动态压缩性能影响[J].复合材料学报,2023,40(1):355-368. 被引量：1
10高泽苏,顾春平,丁聪,孙崯峰,王永明,陈洁如,范哲文.石粉掺量对高延性混凝土工作性能及力学性能的影响[J].新型建筑材料,2023,50(9):22-26.

1YUAN Fang,PAN JinLong,WU YuFei.Numerical study on flexural behaviors of steel reinforced engineered cementitious composite(ECC) and ECC/concrete composite beams[J].Science China(Technological Sciences),2014,57(3):637-645. 被引量：11
2于淑清.深层搅拌法在工程中的应用[J].中国科技信息,2005(11):101-101.
3赵银鑫.马桶上的乐趣[J].少年月刊（小学高年级）,2011(1):95-95.
4Fabiana Rezende,Gihad Mohamad,Eduardo Rizzatti,Larissa D. Kirchhof,Elizabete Y.N. Bavastri.Experimental Analysis of Mechanical Behavior of Lintels with Murfor Reinforcement in Structural Masonry[J].Journal of Civil Engineering and Architecture,2014,8(5):573-580.
5日立建机出展香港Build4Asia建筑业展览[J].建筑机械,2014,34(6):62-62.
6Gihad Mohamad,Eduardo Rizzatti,Paulo Brandao Lourenco,Humberto Ramos Roman.Mechanical Behavior of Concrete Block Masonry[J].Journal of Civil Engineering and Architecture,2012,6(10):1354-1361.
7Cao Wanlin,Zhang Jianwei,Dong Hongying,Wang Min.Research on seismic performance of shear walls with concrete filled steel tube columns and concealed steel trusses[J].Earthquake Engineering and Engineering Vibration,2011,10(4):535-546. 被引量：3
8苏莉鹏.坐在马桶上指挥打仗的北洋将军[J].东西南北,2012(7):66-67.
9夏明媚.厕所八卦[J].现代装饰,2012(6):86-87.
10Jian-guo CAI1,2,Ya ZHOU1,Jian FENG1,2,Yi-xiang XU3 (1Key Laboratory of C&PC Structures of Ministry of Education,Southeast University,Nanjing 210096,China) (2National Prestress Engineering Research Center,Southeast University,Nanjing 210096,China) (3Department of Civil Engineering,Strathclyde University,Glasgow,UK).Mechanical behavior of a shelter system based on cable-strut structures[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2012,13(12):895-903.

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