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圆钢管混凝土T型焊接节点应力强度因子计算方法研究 被引量:5

NUMERICAL CALCULATION METHODOLOGY FOR STRESS INTENSITY FACTORS OF CFCHS WELDED T-JOINTS
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摘要 主管内填充混凝土的圆管桁架是一种新型结构,鉴于断裂力学评估这种结构疲劳性能的需要,该文探讨了圆钢管混凝土T型焊接节点在支管轴拉力作用下的应力强度因子计算方法。首先,根据节点的热点应力分布和疲劳裂纹试验结果,提出了节点断裂力学分析的半椭圆表面裂纹模型。其次,推导了主管、支管及混凝土等部分的参数变换公式,并通过ANSYS软件中的APDL工具编制程序实现了有限元建模、裂纹前沿奇异单元构造;最后,采用位移外推法计算了应力强度因子。计算结果表明:该文有限元分析模型是可靠的,数值方法计算带表面裂纹的钢管混凝土节点的应力强度因子是可行的。 A truss made of circular hollow sections(CHS) in which the chord member is filled with concrete is a new kind of structure.In need of fatigue behavior assessment by means of fracture mechanics,the numerical calculation methodology for the stress intensity factors(SIF) of welded T-joints under brace axial tension is discussed in this paper.Firstly,the semi-elliptical surface crack model used for fracture mechanics analysis of the joint is presented on the basis of experimental results of hot spot stress distributions and fatigue cracks.Secondly,the parameter transformation equations for the chord,brace and concrete are deduced.Then,finite element models and singularity elements near the crack front are constructed using APDL of the software ANSYS.Finally,a displacement extrapolation method is used to calculate the SIF.It is concluded that the finite element modeling is reliable and the numerical calculation method is practicable.
作者 顾敏 童乐为 Zhao Xiao-ling 王笑峰
机构地区 同济大学土木工程学院建筑工程系 澳大利亚Monash大学土木系 同济大学建筑设计研究院(集团)有限公司
出处 《工程力学》 EI CSCD 北大核心 2011年第5期178-185,共8页 Engineering Mechanics
基金 国家自然科学基金项目(50478108)
关键词 圆管-圆管混凝土焊接节点 裂纹扩展模型 应力强度因子 位移外推法 有限元分析 welded joints between CHS and concrete-filled CHS crack propagation model stress intensity factor displacement extrapolation method finite element analysis
分类号 TU392 [建筑科学—结构工程]
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参考文献8

  • 1Tong L W, Wang K. Experimental study on stress concentration factors of concrete-filled circular hollow section T-joints under axial loading [C]. Proceedings of 8th pacific structural conference. Wairakei, New Zealand, 2007.
  • 2CIDECT, Monograph No.7, Fatigue behaviour of welded hollow section joints [S]. UK., 1982.
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同被引文献42

  • 1沈祖炎.直接焊管结构节点极限承载力的计算[J].钢结构,1991,0(4):34-38. 被引量:7
  • 2李安令,曲慧,黄文金.冲击荷载作用下钢管混凝土桁架T形节点破坏模式有限元分析[J].建筑结构学报,2013,34(S1):134-139. 被引量:3
  • 3邵永波,LIE Seng-Tjhen.K节点应力集中系数的试验和数值研究方法[J].工程力学,2006,23(A01):79-85. 被引量:25
  • 4Zhao X L,Herion S,Packer J A,et al.Design guide forcircular and rectangular hollow section welded jointsunder fatigue loading[M].German:CIDECT andTUV-Verlag,2001:19-30.
  • 5Health and safety executive.Background to new fatigueguidance for steel joints and connections in offshorestructures O/S technical report[M].England:Health andSafety Executive,1995.
  • 6Paris P C,Edorgan F.Critical analysis of crackpropagation laws[J].ASME Journal of BasicEngineering,1963,85:528-534.
  • 7Newman J C,Raju I S.An empirical stress intensityfactor equation for the surface crack[J].EngineeringFracture Mechanic,1981,15(1):185-192.
  • 8Dover W D,Hibberd R D.The influence of mean stressand amplitude distribution on random load fatigue crackgrowth[J].Engineering Fracture Mechanic,1977,15:251-263.
  • 9Schumacher A,Nussbaumer A,Haldimann-Sturm S,Walbridge S.Fatigue of bridge joints using welded tubesor cast steel node solutions[C].Montreal:7thInternational Conference on Short and Medium SpanBridges,2006.
  • 10Borges L,Nussbaumer A.Advanced numerical modelingof fatigue size effects in welded CHS K-joints[C].China:12th International Symposium on Tubular Structures,2008.

引证文献5

二级引证文献26

工程力学
2011年 第5期

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