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铝合金熔焊气孔与裂纹交互作用模拟 被引量:1
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作者 吴圣川 喻程 +1 位作者 张卫华 薛弼一 《西南交通大学学报》 EI CSCD 北大核心 2014年第5期855-861,共7页
为研究铝合金熔焊接头中裂纹与气孔交互作用对接头疲劳行为的影响,基于杂交多边形有限单元法(hybrid polygonal element,HPE),构造了单独含椭圆洞和裂纹的多边形单元格式,建立了同时含裂纹和气孔的激光-电弧复合焊接铝合金接头的平面应... 为研究铝合金熔焊接头中裂纹与气孔交互作用对接头疲劳行为的影响,基于杂交多边形有限单元法(hybrid polygonal element,HPE),构造了单独含椭圆洞和裂纹的多边形单元格式,建立了同时含裂纹和气孔的激光-电弧复合焊接铝合金接头的平面应力模型,研究了气孔的分布对焊根裂纹尖端场的影响.研究结果表明:在较为稀疏的网格模型下,HPE法数值解误差可控制在0.5%以内;焊缝下部的小气孔使得裂纹尖端标准化Ⅰ型和Ⅱ型应力强度因子分别增大2.15%和324%,增强效应明显,并且气孔与裂纹间距离越近,两者耦合作用愈强. 展开更多
关键词 裂纹 气孔 疲劳损伤 铝合金激光复合焊 杂交多边形有限元
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激光-电弧复合焊接7075-T6铝合金接头软化行为 被引量:4
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作者 吴圣川 张卫华 +1 位作者 焦汇胜 付亚楠 《中国科学:技术科学》 EI CSCD 北大核心 2013年第7期785-792,共8页
本文采用光纤激光与电弧复合热源焊接2mm厚7075.T6高强铝合金,分析显微组织、晶体织构、强化元素分布、气孔率等对接头“软化行为”的影响.研究表明:1)焊缝为典型的铸造态等轴枝晶组织,热影响区为垂直于熔合线的柱状晶,焊缝是接... 本文采用光纤激光与电弧复合热源焊接2mm厚7075.T6高强铝合金,分析显微组织、晶体织构、强化元素分布、气孔率等对接头“软化行为”的影响.研究表明:1)焊缝为典型的铸造态等轴枝晶组织,热影响区为垂直于熔合线的柱状晶,焊缝是接头软化最严重的区域,而不是热影响区;2)复合焊热过程改变了母材的面心立方结构,晶粒择优取向性减弱,表明由于焊丝的加入发生了异质形核现象;3)焊缝、热影响区和母材的晶粒度分别为35~65,5~35和5~25gm,晶粒尺寸变大对接头的软化有重要影响;4)强化元素Zn蒸发烧损严重,Cu元素则发生了逆偏析,Mg元素变化不大(焊丝的补充作用),强化元素的减少和再分布是引起铝合金复合焊接头“软化”的根本原因;5)在熔合线上分布大量的似三角形颗粒相,初步研究表明该颗粒具有密排六方结构,Mg:Zn原子比为1.7:1,推测其应是亚稳相叩’在向平衡相卵转变时生成的一种过渡二元相;6)铝合金复合焊接头中分布有大小为0.01~107um的微气孔,重构了三维气孔形貌,但气孔对接头软化的贡献仅1%左右. 展开更多
关键词 激光复合高强铝合金 软化行为 元素分布 气孔率 同步辐射
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Microstructure and mechanical properties of 6061 aluminum alloy laser-MIG hybrid welding joint 被引量:3
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作者 FAN Cong YANG Shang-lei +2 位作者 DUAN Chen-feng ZHU Min-qi BAI Yi-shan 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第3期898-911,共14页
In this paper, 3 mm 6061 aluminum alloy sheets were welded by laser MIG hybrid welding. Based on the experiment, the best welding parameters were determined to ensure the penetration welding. The detailed microstructu... In this paper, 3 mm 6061 aluminum alloy sheets were welded by laser MIG hybrid welding. Based on the experiment, the best welding parameters were determined to ensure the penetration welding. The detailed microstructure,tensile and fatigue fracture morphology and surface fatigue damage of the welded joints were analyzed by optical microscope(OM), scanning electron microscope(SEM) and energy dispersive spectrometer(EDS). The results show that there are two main kinds of precipitates, one is the long Si rich precipitates at the grain boundaries, the other is the intragranular Cu rich precipitates. The tensile test results show that the tensile strength of the joint is 224 MPa, which is only 70.2% of the base metal. Through the analysis of tensile fracture, there are great differences in the formation of tensile dimple. In the tensile-tensile fatigue test with a stress rate of 0.1, the conditional fatigue limits of base metal and welded joint are 101.9 MPa and 54.4 MPa, respectively. By comparing the fatigue fracture of the welded joints under different stress amplitudes, it was found that the main factor leading to the fracture of the joint is porosity. Through further analysis of the pore defects, it was found that there are transgranular and intergranular propagation ways of microcracks in the pores, and the mixed propagation way was also found. 展开更多
关键词 aluminum alloy laser-MIG hybrid welding fatigue property MICROSTRUCTURE mechanical properties
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