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钢筋混凝土桥面板疲劳数值分析方法

, PP. 59-66

Keywords: 桥梁工程,钢筋混凝土桥面板,数值模拟,疲劳本构关系,等效荷载

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Abstract:

?为了模拟车辆荷载作用下桥面板的疲劳损伤退化过程,提出了针对公路钢筋混凝土桥面板疲劳失效过程的数值分析方法。首先在各国相关试验与研究的基础上,通过编制合理的荷载谱,将复杂的车辆荷载进行简化等效;然后提出了高周循环荷载下受弯构件中钢筋与混凝土材料的疲劳本构关系,基于ABAQUS软件对一试验板建模分析,验证了疲劳本构关系的正确性;最后,对某实际钢筋混凝土桥面板进行疲劳数值分析与疲劳寿命预测。结果表明:该桥面板的抗疲劳寿命满足要求;所建立的材料疲劳本构关系能够有效模拟钢筋和混凝土在循环加载过程中力学性能的衰减规律。

 References

[1]  KIM C W,KAWATANI M,KWONB Y R.Impact Coefficient of Reinforced Concrete Slab on a Steel Girder Bridge[J].Engineering Structures,2007,29(4):576-590.
[2]  MOGHIMI H,RONAGH H R.Impact Factors for a Composite Steel Bridge Using Non-linear Dynamic Simulation[J].International Journal of Impact En-gineering,2008,35(11):1228-1243.
[3]  魏巍巍,贡金鑫,田 磊.钢筋混凝土构件受剪承载力对比分析[J].建筑科学与工程学报,2010,27(2):25-37,44.
[4]  WEI Wei-wei,GONG Jin-xin,TIAN Lei.Comparative Analysis of Punching Shear Capacity for Reinforced Concrete Slabs[J].Journal of Architecture and Civil Engineering,2010,27(2):25-37,44.
[5]  常莹莹,贡金鑫.钢筋混凝土受弯构件的延性弯矩重分布[J].建筑科学与工程学报,2010,27(2):38-44.
[6]  CHANG Ying-ying,GONG Jin-xin.Ductility and Moment Redistribution of Reinforced Concrete Flexural Members[J].Journal of Architecture and Civil En-gineering,2010,27(2):38-44.
[7]  魏巍巍,贡金鑫,田 磊.钢筋混凝土板受冲切承载力对比分析[J].建筑科学与工程学报,2010,27(4):44-56.
[8]  WEI Wei-wei,GONG Jin-xin,TIAN Lei.Comparative Analysis of Shear Capacity for Reinforced Concrete Members[J].Journal of Architecture and Civil En-gineering,2010,27(4):44-56.
[9]  熊健民,叶 勇,余天庆.正交异性钢桥面板的疲劳寿命评估[J].世界桥梁,2003,31(3):24-27.
[10]  朱劲松,孟会林.公路钢桥精细化抗疲劳设计方法及其应用[J].桥梁建设,2009,39(3):44-47,58.
[11]  ZHU Jin-song,MENG Hui-lin.Refined Anti-fatigue Design Methodology and Its Application for Highway Steel Bridge[J].Bridge Construction,2009,39(3):44-47,58.
[12]  文曙东,卫 星,李 俊,等.重庆石板坡长江大桥钢-混凝土结合段疲劳试验荷载研究[J].世界桥梁,2007,35(2):51-54.
[13]  宋玉普.混凝土结构的疲劳性能及设计原理[M].北京:机械工业出版社,2006.
[14]  SONG Yu-pu.Fatigue Behavior and Design Principle of Concrete Structures[M].Beijing:China Machine Press,2006.
[15]  过镇海.混凝土的强度和本构关系——原理与应用[M].北京:中国建筑工业出版社,2004.
[16]  GUO Zhen-hai.Strength and Constitutive Relations of Concrete-Theory and Applications[M].Beijing:China Architecture & Building Press,2004.
[17]  冯秀峰,宋玉普,宋元成.预应力混凝土受弯构件疲劳损伤全过程非线性分析[J].大连理工大学学报,2005,45(3):410-415.
[18]  FENG Xiu-feng,SONG Yu-pu,SONG Yuan-cheng.Full-range Nonlinear Analysis of Fatigue Damage in Prestressed Concrete Flexural Members[J].Journal of Dalian University of Technology,2005,45(3):410-415.
[19]  庞林飞.钢筋混凝土板疲劳损伤识别及疲劳寿命预测[D].南京:东南大学,2004.
[20]  PANG Lin-fei.Fatigue Cumulative Damage Detection and Fatigue Life Prediction on Reinforced Concrete Slabs[D].Nanjing:Southeast University,2004.
[21]  XIONG Jian-min,YE Yong,YU Tian-qing.Evalu-ation of Fatigue Life of Orthotropic Steel Deck Plates[J].World Bridges,2003,31(3):24-27.
[22]  童乐为,沈祖炎,陈忠延.城市道路桥梁的疲劳荷载谱[J].土木工程学报,1997,30(5):20-27.
[23]  TONG Le-wei,SHEN Zu-yan,CHEN Zhong-yan.Fatigue Load Spectrum for Urban Road Bridges[J].China Civil Engineering Journal,1997,30(5):20-27.
[24]  WEN Shu-dong,WEI Xing,LI Jun,et al.Study of Fatigue Test Load for Steel and Concrete Joint Part of Shibanpo Changjiang River Bridge in Chongqing[J].World Bridges,2007,35(2):51-54.
[25]  朱劲松,宋玉普,肖汝诚.混凝土疲劳特性与疲劳损伤后等效单轴本构关系[J].建筑材料学报,2005,8(6):609-614.
[26]  ZHU Jin-song,SONG Yu-pu,XIAO Ru-cheng.Fatigue Behavior and Post-damaged Equivalent Constitutive Law of Plain Concrete[J].Journal of Building Materials,2005,8(6):609-614.
[27]  张 劲,王庆扬,胡守营,等.ABAQUS混凝土损伤塑性模型参数验证[J].建筑结构,2008,38(8):127-130.
[28]  ZHANG Jin,WANG Qing-yang,HU Shou-ying,et al.Parameters Verification of Concrete Damaged Plastic Model of ABAQUS[J].Building Structures,2008,38(8):127-130.
[29]  HOLMEN J O.Fatigue of Concrete by Constant and Variable Amplitude Loading[C]//ACI.ACI Fatigue of Concrete Structures.Detroit:ACI,1982:7-10.
[30]  潘 华.混凝土受弯构件疲劳性能的试验研究[D].南京:东南大学,2006.
[31]  PAN Hua.Experimental Study on Fatigue Performance of Concrete Member in Bending[D].Nanjing:Southeast University,2006.
[32]  葛俊颖.桥梁工程 [M].北京:中国铁道出版社,2002.
[33]  GE Jun-ying.Bridge Engineering[M].Beijing:China Railway Publishing House,2002.

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