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《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:

2011年02期

Page:

44-51

Research Field:

Publishing date:

2011-06-20

Info

Title:

Bond-slip Numerical Simulation Based on ANSYS Contact Analysis

Author(s):

ZHAO Wei-ping

Department of Building Engineering, Tongji University, Shanghai 200092, China

Keywords:

high strength concrete;  fine-grained steel bar;  bond-slip;  numerical simulation;  ANSYS;  elevated temperature

PACS:

TU375

DOI:

-

Abstract:

Contact analysis of pull-out specimen was carried out by using finite element program ANSYS 10.0. A series of numerical simulation techniques, such as defining material model, establishing finite element model(FEM), generating contact element and post-processing were studied. The practical method of setting up 3-D contact pair with element Targe170 and Conta174 was emphatically introduced. Both friction coefficients of Coulomb friction model and adhesion strength were recommended. Finally, bond-slip numerical simulation was achieved based on ANSYS contact analysis. Results show that contact friction, contact pressure and contact state in the process of steel bar pull-out can be studied by this method, which makes up the deficiency of macro test. This method is feasible to simulate bond-slip relationship during pull-out test.

References:

[1] NGO D,SCORDELIS A C.Finite Element Analysis of Reinforced Concrete Beams[J].Journal of ACI,1967,64(3):152-163.
[2]BRESLER B,BERTERO V V.Behavior of Reinforced Concrete Under Repeated Load[J].Journal of Structural Division,1968,94(S6):1567-1590.
[3]NILSON A H.Nonlinear Analysis of Reinforced Concrete by the Finite Element Method[J].Journal of ACI,1968,65(9):757-766.
[4]REINHARDT H W,BLAAUWENDRAAD J,VOS E.Prediction of Bond Between Steel and Concrete by Numerical Analysis[J].Materials and Structures,1984,17(4):311-320.
[5]COX J V,HERRMANN L R.Confinement-stress Dependent Bond Behavior,Part Ⅱ:a Two-degree of Freedom Plasticity Model[C]//CEB.Proceedings of International Conference on Bond in Concrete.Riga:CEB,1992:11-20.
[6]VAN MIER J G M,VERVUURT A.Lattice Model for Analyzing Steel-concrete Interface Behavior[J].Mechanics of Geometrical Interfaces,1995,42(1):201-225.
[7]高向玲,李 杰.钢筋与混凝土粘结本构关系的数值模拟[J].计算力学学报,2005,22(1):73-77. GAO Xiang-ling,LI Jie.Numerical Simulation of Bond Constitutive Relation Between Reinforcement and Concrete[J].Chinese Journal of Computational Mechanics,2005,22(1):73-77.
[8]高陈燕,尹冠生,马 超.基于有限变形理论ANSYS几何非线性算法缺陷分析[J].建筑科学与工程学报,2008,25(2):106-110. GAO Chen-yan,YIN Guan-sheng,MA Chao.Analysis of Deficiency of ANSYS Geometric Nonlinear Arithmetic Based on Finite Deformation Theory[J].Journal of Architecture and Civil Engineering,2008,25(2):106-110.
[9]许 强,李湘沅,陈 庆,等.基于ANSYS平台的连续体渐进结构优化设计及其应用[J].建筑科学与工程学报,2008,25(1):23-31. XU Qiang,LI Xiang-yuan,CHEN Qing,et al.Evolutionary Structural Optimization Design of Continuum Based on ANSYS Platform and Its Application[J].Journal of Architecture and Civil Engineering,2008,25(1):23-31.
[10]HAMMATY Y,DE ROECK G,VANDEWALLE L.Finite Element Modeling of Reinforced Concrete Taking into Consideration Bond-slip[C]//DIETRICH D E.1991 ANSYS Conference Proceedings.Houston:SASI,1991:1-10.
[11]王依群,王福智.钢筋与混凝土间的黏结-滑移在ANSYS中的模拟[J].天津大学学报,2006,39(2):209-213. WANG Yi-qun,WANG Fu-zhi.Simulation of Bond-slip Relationship Between Concrete and Reinforcing Bar in ANSYS[J].Journal of Tianjin University,2006,39(2):209-213.
[12]刘佩玺,徐永清,刘福胜.钢筋混凝土结构粘结-滑移分析在ANSYS中的实现[J].山东农业大学学报:自然科学版,2007,38(1):125-130. LIU Pei-xi,XU Yong-qing,LIU Fu-sheng.Realization of RC Structure Bond-slip Analysis with ANSYS[J].Journal of Shandong Agricultural University:Natural Science,2007,38(1):125-130.
[13]肖建庄,黄均亮,赵 勇.高温后高性能混凝土和细晶粒钢筋间粘结性能[J].同济大学学报:自然科学版,2009,37(10):1296-1301. XIAO Jian-zhuang,HUANG Jun-liang,ZHAO Yong.On Bond Behavior Between HPC and Fine Grain Steel Bar After Elevated Temperatures[J].Journal of Tongji University:Natural Science,2009,37(10):1296-1301.
[14]肖建庄,王 平,谢 猛,等.矿渣高性能混凝土高温后受压本构关系试验[J].同济大学学报:自然科学版,2003,31(2):186-190. XIAO Jian-zhuang,WANG Ping,XIE Meng,et al.Experimental Study on Compressive Relationship of HPC at Elevated Temperature[J].Journal of Tongji University:Natural Science,2003,31(2):186-190.
[15]朱伯龙,陆洲导,胡克旭.高温(火灾)下混凝土与钢筋的本构关系[J].四川建筑科学研究,1990(1):37-43. ZHU Bo-long,LU Zhou-dao,HU Ke-xu.Constitutive Relationship of Concrete and Steel Bar Subject to High Temperature(Fire)[J].Building Science Research of Sichuan,1990(1):37-43.
[16]江见鲸,陆新征,叶列平.混凝土结构有限元分析[M].北京:清华大学出版社,2004. JIANG Jian-jing,LU Xin-zheng,YE Lie-ping.Finite Element Analysis of Concrete Structures[M].Beijng:Tsinghua University Press,2004.
[17]GB 1499.2—2007,钢筋混凝土用钢第2部分:热轧带肋钢筋[S]. GB 1499.2—2007,Steel for the Reinforcement of Concrete—Part 2:Hot Rolled Ribbed Bars[S].
[18]徐有邻.变形钢筋-混凝土粘结锚固性能的试验研究[D].北京:清华大学,1990. XU You-lin.An Experimental Study of Bond-anchorage Properties of Bars in Concrete[D].Beijing:Tsinghua University,1990.
[19]GAMBAROVA P G,ROSATI G P.Bond and Splitting in Reinforced Concrete:Test Results on Bar Pull-out[J].Materials and Structures,1996,29(5):267-276.
[20]ACHILLIDES Z,PILAKOUTAS K,WALDRON P.Bond Behavior of FRP Rebar Splices[C]//TAERWE L.Non-metallic(FRP)Reinforcement for Concrete Structures.London:Spon Press,1997:405-412.
[21]任 伟,贺拴海,栾好发.片材-混凝土界面粘贴性能试验[J].长安大学学报:自然科学版,2009,29(2):60-64. REN Wei, HE Shuan-hai, LUAN Hao-fa.Test on Bonding Performance of Sheet-concrete Interface[J].Journal of Chang'an University:Natural Science Edition,2009,29(2):60-64.
[22]尧云涛,肖汝诚.考虑空间效应的钢-混凝土组合梁单元研究[J].中国公路学报,2008,21(3):53-56,90. YAO Yun-tao,XIAO Ru-cheng.Research on Segment Element of Steel-concrete Composite Slab Beam Considering Spatial Effect[J].China Journal of Highway and Transport,2008,21(3):53-56,90.
[23]刘寒冰,马 辉,刘天明,等.竖向集中荷载作用下钢-混凝土组合梁的解析解[J].中国公路学报,2010,23(4):39-44. LIU Han-bing,MA Hui,LIU Tian-ming,et al.Analytical Solution of Steel-concrete Composite Beam Under Vertical Loads[J].China Journal of Highway and Transport,2010,23(4):39-44.
[24]聂建国,张晓光,樊健生.钢-混凝土组合梁加宽混凝土旧桥试验[J].中国公路学报,2010,23(5):35-43. NIE Jian-guo,ZHANG Xiao-guang,FAN Jian-sheng.Experiment on Old Concrete Bridge Widened with Steel-concrete Composite Beams[J].China Journal of Highway and Transport,2010,23(5):35-43.

Memo

Memo:

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Common functions

Last Update: 2011-06-20