铝合金同类和异类自冲铆接性能分析

Lun Zhao, Xiaole Huo, Zeshan Abbas, Guo Zixin, Md Shafiqul Islam
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摘要

在这项工作中,相似(2A12)和不同(6061)铝合金板使用自穿铆钉工艺有效地连接。提出了一种准静态试验方法来研究不同节理的力学行为、破坏模式和机理。此外,提出了一种基于深度学习算法的SPR焊接接头外观缺陷检测方法。结果表明,2A12类板节点具有较好的静强度,6061类板节点具有较好的抗振性能。采用6061-2A12板材的接头具有较好的综合力学性能。2A12类板状接头的主要破坏方式为基体断裂。基材的性能影响接头的破坏模式,基材的塑性较好。当时间到来时,失效模式多为拉脱失效。基材塑性差,容易导致基材断裂。接头脱扣失效的原因是接头下板存在较大的塑性变形,机械内锁结构损坏。2A12基体断裂属于晶间断裂与微孔洞聚集型断裂相结合的复合断裂。6061基体靠近试样边缘的区域为剪切断裂,靠近试样厚度中心的区域以微空洞聚集型正常断裂为主。通过一系列实验验证了该方法的有效性,该方法的检测精度可达到90%左右。检测速度高达50帧/秒,有效解决了铆钉质量难以监控的问题。
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Performance analysis of similar and dissimilar self-piercing riveted joints in aluminum alloys
In this work, similar (2A12) and dissimilar (6061) aluminum alloy sheets are validly joined using self-piercing rivet process. A quasi-static experiment is proposed to investigate the mechanical behaviors, failures mode, and mechanism of the different joints. Moreover, a method based on deep learning algorithm is anticipated to detect the appearance defects of the SPR welded joints. The results indicated that 2A12 joints of similar sheets contained the advantageous static strength and 6061 similar sheet joints had superior anti-vibration performance conducts. The joints with 6061-2A12 sheets introduced the most decent and comprehensive mechanical properties. The main failure mode of 2A12 similar sheet joints was substrate fracture. The performance of the substrate affects the failure mode of the joint and the plasticity of the substrate is better. When the time comes, the failure mode is mostly pull-off failure. Poor plasticity of the substrate can easily lead to substrate breakage. The reason for joint pull-off and button fall-off failure is that there is large plastic deformation in the lower plate of the joint and the mechanical internal locking structure is damaged. 2A12 substrate breakage belongs to a composite fracture that combines intergranular fracture and microvoid aggregation type fracture. The area of the 6061 substrate near the edge of the sample is shear fracture and the area near the center of the sample thickness is dominated by microvoid aggregation type normal fracture. The effectiveness of the method was verified by conducting a series of experiments and the detection accuracy of the method can reach about 90%. The detection speed was as high as 50 frames per second (FPS), which can effectively solve the problem that the rivet quality was difficult to monitor.
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