Two-dimensional and three-dimensional magnification factors, M{sub}k, for non-load-carrying fillet welds cruciform joints

S. T. Lie; Z. Zhao; S. H. Yan

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Two-dimensional and three-dimensional magnification factors, M{sub}k, for non-load-carrying fillet welds cruciform joints

机译：非承载角焊缝十字形接头的二维和三维放大系数M {sub} k

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Two-dimensional M {sub}k factors at the weld toe of non-load-carrying transverse welded attachments are derived indirectly using the principle of superposition and stresses obtained from boundary element analysis. The results are in good agreement with that obtained by Maddox and Andrews [1] for different ratios of l/T, where I is the weld toe to weld toe distance, and T is the main plate thickness. Further three-dimensional boundary element analysis using realistic crack shapes, confirm that l/T is the most important parameter. Two-dimensional edge cracks analyses overestimate and underestimate the deepest and surface points M {sub}k values by as much as 15% and 65% respectively. Parametric equations for three-dimensional M {sub}k are proposed for design purposes.

机译：利用叠加原理和边界元分析获得的应力，间接推导了非承载横向焊接附件的焊趾处的二维M {k} k因子。结果与Maddox和Andrews [1]在不同的L / T比下获得的结果吻合得很好，其中I是焊趾与焊趾的距离，T是主板厚度。使用实际的裂纹形状进行的进一步的三维边界元分析证实，L / T是最重要的参数。二维边缘裂纹分析高估和低估了最深点和表面点M {sub} k值，分别高达15％和65％。为了设计目的，提出了用于三维M {sub} k的参数方程。

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来源
《Engineering Fracture Mechanics》 |2000年第4期|共19页
作者
S. T. Lie; Z. Zhao; S. H. Yan;
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正文语种 eng
中图分类工程力学;
关键词
Boundary element analysis; Cracks; Fillet welds; Magnification factor; Stress intensity factor;

机译：边界元分析裂纹圆角焊缝放大系数应力强度系数;

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专利

1. Two-dimensional and three-dimensional magnification factors, M{sub}k, for non-load-carrying fillet welds cruciform joints [J] . S. T. Lie, Z. Zhao, S. H. Yan Engineering Fracture Mechanics . 2000,第4期

机译：非承载角焊缝十字形接头的二维和三维放大系数M {sub} k
2. Prediction of Stress Intensity Magnification Factors of a Weld Toe Crack in Load-Carrying Cruciform Fillet Welded Joints Under Axial Loading [J] . Zhao Haisheng, Lie Seng Tjhen, Zhang Yao International journal of steel structures . 2019,第3期

机译：轴向载荷下焊接脚趾裂缝焊接脚趾裂缝应力强度放大因子的预测
3. Effect of weld geometry on the fatigue life of non-load-carrying fillet welded cruciform joints [J] . Chin-Hyung Lee, Kyong-Ho Chang, Gab-Chul Jang Engineering failure analysis . 2009,第3期

机译：焊接几何形状对无载荷角焊十字形接头疲劳寿命的影响
4. Determina tion of St ress Intensity Factors f or Load - Carrying Fillet Welded Cruciform Joints using Digital Image CorrelationMethod [C] . Rong-Shiuan Lin, Hsin-Yang Chung, Li-Ting Huang The proceedings of the nineteenth (2009) international offshore and polar engineering conference (ISOPE-2009) . 2009

机译：用数字图像关联法确定承载角焊接十字接头的应力强度因子。
5. The effect of spring restraint on weld distortion in t-joint fillet welds [D] . Rickers, Michael A. 2009

机译：弹簧约束对T型角焊缝焊接变形的影响
6. Weld Magnification Factor Approach in Cruciform Joints Considering Post Welding Cooling Medium and Weld Size [O] . Oscar Araque, Nelson Arzola 2018

机译：考虑焊接后冷却介质和焊缝尺寸的十字形接头焊接放大倍数法
7. FATIGUE STRENGTH OF NON-LOAD-CARRYING TYPE CRUCIFORM FILLET WELDED JOINT WITH UIT IN CASE OF FAILING FROM WELD ROOT [O] . Takeshi MORI, Keita OSUMI, Takayuki YONEZAWA, 2019

机译：在焊接根部未发生故障的情况下，具有UIT的非负载型型坩埚内圆角焊接接头的疲劳强度
8. A RE-ANALYSIS OF SOME FATIGUE TEST RESULTS OBTAINED FOR SPECIMENS WITH LONGITUDINAL NON-LOAD-CARRYING FILLET WELDS [R] . T. R. GURNEY 1969

机译：重新分析纵向无载荷填充焊缝试样获得的某些疲劳试验结果

Two-dimensional and three-dimensional magnification factors, M{sub}k, for non-load-carrying fillet welds cruciform joints

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