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基于有限元模拟和动态响应的双点点焊接头疲劳损伤分析 被引量:5

FATIGUE DAMAGE ANALYSIS BASED ON FE SIMULATION AND DYNAMIC RESPONSE FOR DOUBLE-SPOT WELDED JOINTS
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摘要 利用三维有限元模拟和动态响应试验,对承受拉剪载荷的双点点焊接头在疲劳过程中的固有频率的变化特性,以及固有频率的相对变化与疲劳损伤之间的关系进行研究。研究结果表明,有限元模拟和试验结果符合较好,双点点焊接头动态有限元模拟能较好地反映疲劳过程中的动态响应变化行为。在此基础上,针对双点点焊接头,拟合出疲劳损伤表达式,用于计算试件在疲劳过程中的损伤。 The relative changes of natural frequency and relationship with fatigue damage were investigated, based on 3D finite element simulation and the dynamic response experiments for tensile-shear double-spot welded joints during the fatigue damage process. The results of the simulations showed that a good agreement was achieved with experimental analysis. 3D finite element simulation can reflect the changes of natural frequency for double-spot welded joints during the fatigue damage process. Based on experiments and finite element simulation, a fatigue damage equation was proposed, which can be used to calculate the damage of double-spot welded joints in the fatigue process.
作者 李力森 尚德广 王瑞杰 沈通 邓静
机构地区 北京工业大学机械工程与应用电子技术学院
出处 《机械强度》 EI CAS CSCD 北大核心 2008年第2期276-282,共7页 Journal of Mechanical Strength
基金 北京市自然科学基金资助项目(3042003) 北京市人才强教计划资助项目~~
关键词 三维有限元 动态响应 双点点焊接头 疲劳损伤 固有频率 3D finite element Dynamic response Double-spot welded joints Fatigue damage Natural frequency
分类号 TG405 [金属学及工艺—焊接] TG407 [金属学及工艺—焊接]
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参考文献5

  • 1Wang G, Barkey M E. Fatigue cracking and its influence on dynamic response characteristics of spot welded specimens[ J]. Experimental Mechanics, 2004, 44(5): 512-521.
  • 2Wang G, Barkey M E. Fatigue cracking identification in tensile-shear spot welded joints by dynamic response characteristics[J]. Journal of Engineering Materials and Technology, 2005, 127(7): 1-8.
  • 3Shang De-guang, Barkey M E, Warts Y, et al. Effect of fatigue damage on dynamic response frequency for spot-welded joints[J]. International Journal of Fatigue, 2003, 25(3): 311-316.
  • 4尚德广,王瑞杰.基于动态响应有限元模拟的点焊接头疲劳寿命预测[J].机械工程学报,2005,41(5):49-53. 被引量:15
  • 5尚德广.基于动态响应特性的点焊疲劳损伤参量[J].北京工业大学学报,2004,30(2):144-147. 被引量:9

二级参考文献18

  • 1Shang D G, Barkey M E, Wang Y, et al. Fatigue damage and dynamic natural frequency response of spot-welded joints. SAE 2003, Paper 2003010695
  • 2Doucet J P. Evaluation of the fatigue strength of spot-welded joints with a view to establishing design rules.Welding Institute Translation, 1983, 638:2~7
  • 3Peterson R E. Stress Concentration Factors. New York:John Wiley and Sons, 1974
  • 4Rathbun R W, Matlock D K, Speer J G. Fatigue behavior of spot welded high-strength sheet steels. Welding Journal,2003, 82(8): 207~218
  • 5Wang Y, Lim T C. An experimental and computational study of the dynamic characteristics of spot-welded sheet metal structures. Spot Welding and Welded Joint Failure Processes, 2001, 1 621:85~93
  • 6Shang D G, Barkey M E, Wang Y, et al. Effect of fatigue damage on dynamic response frequency for spot-welded joints. International Journal of Fatigue, 2003, 25(3):311~316
  • 7Wang P C, Corten H T, Lawrence F V. A fatigue life prediction method for tensile-shear spot welds. SAE, 1985,Technical Paper 850370
  • 8McMahon J C, Smith G A, Lawrence F V. Fatigue crack initiation and growth in tensile-shear spot weldments. In:Fatigue and Fracture Testing of Weldments, ASTM STP 1058, McHenry H I, Potter J M, eds, Philadelphia 1990:47~77
  • 9LEMAITRE J, DUFAILLY J. Damage measurements[J]. Engineering Fracture Mechanics, 1987, 28(5/6):643 -661.
  • 10CHABOCHE J L. Continuous damage mechanics A tool to describe phenomena before crack initiation[J].Nuclear Engineering and Design, 1981, 64(2): 233-247.

共引文献20

同被引文献49

引证文献5

二级引证文献12

机械强度
2008年 第2期

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