In situ tensile of ultra-narrow gap laser welded joint of bainitic steel

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In situ tensile of ultra-narrow gap laser welded joint of bainitic steel

机译：在贝氏体钢的超窄间隙激光焊接接头的原位拉伸

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Ultra-narrow gap laser welding (ultra-NGLW) is an advanced welding technology for thick bainite steel with a welding gap of only 4 mm. We studied the failure mechanism of the tensile fracture of ultra-NGLW joints of bainitic steel via in situ tensile tests. The tests show that cracks for all micro-zone specimens propagated along the tensile direction at 42°~45°. Further analysis of the crack tips by Electron Back Scatter Diffraction showed main cracks along directions with high Schmid Factors (SF > 0.44), and micro-cracks were found on the grain boundaries of (111) and (101) grains. It was revealed that the wire-filling zone and heat-affected zone were mainly intergranular expansion, whereas in the no filling zone, the crack propagation was transgranular.

机译：超窄间隙激光焊接（ULTRA-NGLW）是厚贝氏体钢的先进焊接技术，焊接差距仅为4毫米。通过原位拉伸试验研究了贝氏体钢超大钢关节拉伸断裂的故障机理。该试验表明，所有微区样品的裂缝沿拉伸方向在42°〜45°沿拉伸方向传播。通过电子背面散射衍射对裂纹尖端的进一步分析显示沿着具有高乳突因子的方向的主要裂缝（SF> 0.44），并且在（111）和（101）颗粒的晶界上发现了微裂纹。揭示了线灌浆区和热影响区域主要是晶间膨胀，而在无灌装区中，裂纹繁殖是跨晶的。

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《Materials Science and Technology: MST: A publication of the Institute of Metals》 |2020年第10期|共7页
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中图分类工程材料学;
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In situ tensile; ultra-narrow gap laser welding; crack propagation; Schmid Factor; bainitic steel;

机译：原位拉伸;超窄间隙激光焊接;裂纹繁殖;施密因子;贝氏体钢;

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1. In situ tensile of ultra-narrow gap laser welded joint of bainitic steel [J] . Materials Science and Technology: MST: A publication of the Institute of Metals . 2020,第9a10期

机译：在贝氏体钢的超窄间隙激光焊接接头的原位拉伸
2. Softening characteristics in ultra-narrow gap GMA welded joints of ultra-fine grained steel [J] . Ito R., Hiraoka K., Shiga C. Science and Technology of Welding & Joining . 2005,第4期

机译：超细晶粒钢超窄间隙GMA焊接接头的软化特性
3. Comparison of microstructure and mechanical properties of ultra-narrow gap laser and gas-metal-arc welded S960 high strength steel [J] . Guo Wei, Li Lin, Dong Shiyun, Optics and Lasers in Engineering . 2017,第APRa期

机译：超窄间隙激光与气-金属电弧焊S960高强度钢的组织和力学性能比较
4. Effect on Hardness and Micro-structures of Rail Joint with Ultra-Narrow Gap Arc Welding by Post Weld Heat Treatment [C] . Lian Gong, Liang Zhu, Hong Xiang Zhou International Conference on Material Science and Engineering Technology . 2017

机译：焊接热处理用超窄间隙电弧焊的轨道关节硬度和微结构的影响
5. A comprehensive model of fatigue life prediction of zerogap lap-jointed galvanized DP980 steel with considering laser welding induced residual stress. [D] . Joseph, Anago Umonu. 2015

机译：考虑激光焊接引起的残余应力的零间隙搭接镀锌DP980钢疲劳寿命预测的综合模型。
6. Influence of Assembly Gap Size on the Structure and Properties of SUS301L Stainless Steel Laser Welded Lap Joint [O] . Hongxiao Wang, Yanxin Wang, Xin Li, 2021

机译：组装间隙尺寸对SUS301L不锈钢激光焊接圈关节结构和性能的影响
7. On the Fatigue Strengths of Fillet welded Joints Connecting high Tensile Strength Structural Steels, and of Similar Joints of high Tensile Strength Structural Steel, Connected with Mild Steel [O] . Ichiro KONISHI, Otomaro TAKAGI, Kijuro SHIMADA 1958

机译：基于连接高拉伸强度结构钢的圆角焊接接头的疲劳强度，以及高抗拉强结构钢的相似关节，与温和钢相连
8. Ultra-narrow gap laser welding of BeAl alloys. Final report [R] . Milewski, J. O. , Sklar, E. 1998

机译：Beal合金的超窄间隙激光焊接。总结报告

In situ tensile of ultra-narrow gap laser welded joint of bainitic steel

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