Effect of buffer layer thickness on fatigue and residual stress of welded high-strength low-alloy

机译：缓冲层厚度对焊接高强度疲劳和残余应力的影响

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The present work dealt with the fatigue and residual stress (RS) effects of a soft buffer layer (BL) between the parent metal and the weld metal (WM) on welded high-strength low-alloy (HSLA) steel. Six strategies were pursued by varying BL thickness and changing U-notch position with respect to the WM in extended-compact tension specimen. The U-notch position was changed to study the effect of welding RS field, acting along the fatigue crack growth path. The welded HSLAs with BLs strategies were compared to the specimens without BLs strategies, before and after releasing RS respectively. The results demonstrated that the incorporation of a thin BL of 4 mm significantly reduced the fatigue crack growth rate (da/dN) when the RS in the welded HSLA was released by machining a U-notch in the WM. A thick BL of 10 mm was found to be beneficial to fatigue resistance when a U-notch was in the PM.

机译：本工作涉及靠焊接高强度低合金（HSLA）钢上的母金属和焊接金属（WM）之间的软缓冲层（BL）的疲劳和残余应力（RS）效应。通过在延长紧凑的张力标本中改变BL厚度和改变U-NOTCH位置，在延长紧凑的张力标本中改变U-NOTCH位置来追求六种策略。 U-NOTCH位置改变以研究焊接RS场的效果，沿着疲劳裂纹生长路径作用。将带有BLS策略的焊接HSLA分别与BLS策略的标本进行比较，分别在释放卢比之前和之后。结果表明，当通过在WM中加工U-Notch释放焊接HSLA中的RS时，掺入4mm的薄B1显着降低疲劳裂纹生长速率（DA / DN）。当U-Notch在PM在PM在PM时，发现10毫米的厚实BL有利于疲劳性。

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《International Conference on Metallic Materials and Manufacturing Technology》|2013年||共4页
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Chunguo Zhang; Pengmin Lu; Junhong Li;
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中图分类 TG14-53;
关键词
Buffer layer; High-strength low-alloy; Residual stress; Fatigue behavior;

机译：缓冲层;高强度低合金;残余应力;疲劳行为;

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专利

1. Residual stress-induced deformation and fatigue crack growth in weld-repaired high-strength low-alloy steel with soft buffer layer [J] . Chunguo Zhang, Pengmin Lu, Xiaozhi Hu, Materials Science and Engineering . 2013,第MARa1期

机译：具有软缓冲层的焊缝修复高强度低合金钢的残余应力引起的变形和疲劳裂纹扩展
2. Residual stress and softening in welded high-strength low-alloy steel with a buffering layer [J] . Chunguo Zhang, Pengmin Lu, Xiaozhi Hu Journal of Materials Processing Technology . 2014,第2期

机译：带缓冲层的焊接高强度低合金钢的残余应力和软化
3. Effect of buffer layer and notch location on fatigue behavior in welded high-strength low-alloy [J] . Chunguo Zhang, Pengmin Lu, Xiaozhi Hu, Journal of Materials Processing Technology . 2012,第10期

机译：缓冲层和缺口位置对焊接高强度低合金疲劳行为的影响
4. Effect of buffer layer thickness on fatigue and residual stress of welded high-strength low-alloy [C] . Chunguo Zhang, Pengmin Lu, Junhong Li International Conference on Metallic Materials and Manufacturing Technology . 2013

机译：缓冲层厚度对焊接高强度低合金疲劳和残余应力的影响
5. Effects of residual stress, weld toe notch and weld defects on fatigue of welded steel structures. [D] . Shen, Wenyu. 1992

机译：残余应力，焊趾缺口和焊缝缺陷对焊接钢结构疲劳的影响。
6. Welding Temperature Distribution and Residual Stresses in Thick Welded Plates of SA738Gr.B Through Experimental Measurements and Finite Element Analysis [O] . Xiaoyu Yang, Guizhen Yan, Yanfei Xiu, 2019

机译：实验测量和有限元分析的SA738Gr.B厚板焊接温度分布及残余应力
7. Application of Friction Stir Processing to Weld Toe for Fatigue Strength Improvement of High-Strength Low-Alloy Steel Joint [O] . Hajime Yamamoto, Yoshikazu Danno, Kazuhiro Ito, 2018

机译：摩擦搅拌加工在钢丝焊脚趾中的应用，高强度低合金钢接头疲劳强度提高

Effect of buffer layer thickness on fatigue and residual stress of welded high-strength low-alloy

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