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中国公路学报 2012

面向桥面铺装动力响应分析的多尺度桥梁模型

, PP. 87-93

张磊,伍石生,黄卫,陈团结,沈孔健

Keywords: 桥梁工程,桥面铺装,多尺度模型,动力响应,子结构,阻尼

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Abstract:

？为了解决传统桥面铺装设计方法不能反映在行车荷载与桥梁振动特性耦合作用条件下的铺装动力响应问题,提出一种面向桥面铺装动力响应分析的多尺度桥梁模型的构建新方法。该方法首先综合考虑桥面铺装和桥梁结构特性对建模的要求,建立整桥有限元仿真模型,然后构建精细化桥面铺装体系局部梁段模型,最后通过动力子结构方法将整桥结构与桥面铺装局部结构衔接,并以某大跨径悬索桥为例进行实例分析。结果表明:由于考虑整桥动力特性和不平度的影响,将使计算结果(不平度等级为A)比静力计算结果大10%~15%,并且随着不平度的增加而非线性增加;采用该模型的构建方法可以避免现行桥面铺装设计中采用静载偏不安全的缺点。

References

[1]	黄卫.大跨径桥梁钢桥面铺装设计理论与方法[M].北京:中国建筑工业出版社,2006.
[2]	LAW S S,ZHU X Q.Bridge Dynamic Responses Due to Road Surface Roughness and Braking of Vehicle[J].Journal of Sound and Vibration,2005,282(3/4/5):805-830.
[3]	DAS A,DUTTA A,TALUKDAR S.Efficient Dynamic Analysis of Cable-stayed Bridges Under Vehicular Movement Using Space and Time Adaptivity[J].Finite Elements in Analysis and Design,2004,40(4):407-424.
[4]	GUYAN R J.Reduction of Stiffness and Matrices[J].AIAA Journal,1965,3(2):380.
[5]	KUHAR E J,STABLE C V.Dynamic Transformation Method for Modal Synthesis[J].AIAA Journal,1974,12(5):672-678.
[6]	QIAN Zhen-dong,CHEN Lei-lei,JIANG Chen-long,et al.Performance Evaluation of a Lightweight Epoxy Asphalt Mixture for Bascule Bridge Pavement[J].Construction and Building Materials,2011,25(7):3117-3122.
[7]	GB 7031—86,车辆振动输入:路面平度表示方法[S].
[8]	GB 7031—86,Vehicle Vibration－Describing Method for Road Surface Irregularity[S].
[9]	PEI Jian-zhong,WANG Fu-yu.Tensile Properties and Its Evaluated Indexes of Waterproofing Material for Bridge Decks[J].Journal of Architecture and Civil Engineering,2009,26(1):19-23.
[10]	HUANG Wei.Theory and Method of Deck Paving Design or Long-span Bridges[M].Beijing:China Architecture & Building Press,2006.
[11]	杜昕.大跨径悬索桥与斜拉桥钢桥面铺装在竖向荷载静力作用下力学特性研究[D].南京:东南大学,2005.
[12]	DU Xin.Researching on Mechanical Properties of Long-span Suspension Bridge and Cable-stayed Bridge Deck Surfacing Under Vertical Static Loading[D].Nanjing:Southeast University,2005.
[13]	HUURMAN M,MEDANI T O,SCARPAS A,et al.Development of a 3D-FEM for Surfacings on Steel Deck Bridges[C]//ATLURI S N,BESKOS D E,POLYZOS D.Proceedings of the 2003 International Conference on Computational & Experimental Engineering and Sciences.Norcross:Tech Science Press,2003:24-29.
[14]	SEIM C,INGHAM T.Influence of Wearing Surfacing on Performance of Orthotropic Steel Plate Decks[J].Transportation Research Record,2004(1892):98-106.
[15]	LIU C,HUANG D,WANG T L.Analytical Dynamic Impact Study Based on Correlated Road Roughness[J].Computers & Structures,2002,80(20/21):1639-1650.
[16]	CRAIG R R,BAMPTON M C C.Coupling of Substructures for Dynamic Analysis[J].AIAA Journal,1968,6(7):1313-1319.
[17]	刘云.大跨径斜拉桥钢桥面铺装动力响应分析[D].南京:东南大学,2006.
[18]	LIU Yun.Analysis on Dynamic Response of Long-span Cable-stayed Bridge Steel Deck Pavement[D].Nanjing:Southeast University,2006.
[19]	裴建中,王富玉.桥面防水材料拉伸性能及其评价指标[J].建筑科学与工程学报,2009,26(1):19-23.

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