Fatigue Strength Improvement of Lap Welded Joints by Low Transformation Temperature Welding Wire — Superior Improvement with Strength of Steel

被引:0
|
作者
A. Ohta
N. Suzuki
Y. Maeda
S. J. Maddox
机构
[1] National Institute for Materials Science,
[2] The Welding Institute,undefined
来源
Welding in the World | 2003年 / 47卷 / 3-4期
关键词
Fatigue; Welding; Residual Stress; Fatigue Strength; Fatigue Crack Growth;
D O I
10.1007/BF03266382
中图分类号
学科分类号
摘要
The potential improvement in fatigue performance of lap welded joints in 2 mm thick 540MPa and 780MPa class steels from the introduction of compressive residual stress by welding with low transformation temperature (LTT) welding wire was investigated. Comparative fatigue tests in bending at a stress ratio of R=0 on specimens made with conventional and LTT welds confirmed that the fatigue performance of such thin specimens was improved, particularly in the long-life regime. Furthermore, the benefit was greatest in the high-strength steel, the improvement in fatigue strength at 107 cycles being 1.4 times for 540MPa steel and 1.6 times for 780MPa steel.
引用
收藏
页码:38 / 43
页数:5
相关论文
共 50 条
  • [41] BIBLIOGRAPHY - FATIGUE-STRENGTH OF WELDED-JOINTS AND TECHNIQUES FOR ITS IMPROVEMENT
    不详
    WELDING RESEARCH INTERNATIONAL, 1978, 8 (01): : 76 - 80
  • [42] Ultrasonic peening and low transformation temperature electrodes used for improving the fatigue strength of welded joints
    Lixing H.
    Dongpo W.
    Wenxian W.
    Yufeng Z.
    Welding in the World, 2004, 48 (3-4) : 34 - 39
  • [43] Improvement of the Fatigue Strength of Welded Connections.
    Bignonnet, A.
    Construction Metallique, 1986, 23 (04): : 69 - 78
  • [44] Study on improvement of fatigue strength at welded joints in bridges by new functional structural steel plates against fatigue failure
    Sumitomo Metal Industries, Ltd., Corporate R and D Laboratories
    不详
    不详
    不详
    Weld. World, 2007, SPEC. ISS. (215-224):
  • [45] IMPROVEMENT OF FATIGUE-STRENGTH IN WELDED HIGH-TENSILE STRENGTH STEEL BY TOE TREATMENT
    HANZAWA, M
    YOKOTA, H
    ISHIGURO, T
    TAKASHIMA, H
    KADO, S
    TANIGAKI, T
    HASHIDA, Y
    WELDING RESEARCH INTERNATIONAL, 1978, 8 (01): : 28 - 52
  • [46] Fatigue strength improvement method for thin sheet GMA welding joints by weaving
    Matsuda, Kazuki
    Ishida, Yoshinari
    Kodama, Shinji
    WELDING IN THE WORLD, 2023, 67 (03) : 733 - 739
  • [47] Fatigue strength improvement method for thin sheet GMA welding joints by weaving
    Kazuki Matsuda
    Yoshinari Ishida
    Shinji Kodama
    Welding in the World, 2023, 67 : 733 - 739
  • [48] IMPROVEMENT OF FATIGUE-STRENGTH OF FILLET WELDED-JOINTS IN 780N-MM2 HIGH-STRENGTH STEEL
    IKEDA, K
    DENOH, S
    GODAI, T
    OGAWA, T
    WELDING RESEARCH INTERNATIONAL, 1978, 8 (01): : 16 - 27
  • [49] Improvement of Fatigue Properties of Resistance Spot Welded Joints in High Strength Steel Sheets by Shot Blast Processing
    Fujimoto, Hiroki
    Ueda, Hideki
    Ueji, Rintaro
    Fuji, Hidetoshi
    ISIJ INTERNATIONAL, 2016, 56 (07) : 1276 - 1284
  • [50] Fatigue strength improvement of out-of-plane welded joints of steel girder under variable amplitude loading
    Miki, Chitoshi
    Tai, Masayuki
    WELDING IN THE WORLD, 2013, 57 (06) : 823 - 840
12345