锻压技术

钢铝异种自冲铆接结构静载变形失效机制

英文标题：Deformation failure mechanism under static loading on self-piercing riveted structure for dissimilar steel and aluminum

作者：张先炼扶文生张青

单位：长江大学

关键词：自冲铆接 ST14冷轧钢 5083铝合金静力学性能瞬时刚度失效行为变形机制

分类号：TG386

出版年,卷(期):页码：2024,49(3):136-142

摘要：

针对ST14冷轧钢与5083铝合金异种薄板组合自冲铆接结构在静态载荷作用下的变形失效机制开展研究。围绕钢铝异种自冲铆接成形质量进行对比分析，确定工艺参数。通过拉伸-剪切试验，分析搭接次序及铆点数量对接头静力学性能、瞬时刚度及失效行为的影响，探究静态载荷作用下钢铝异种自冲铆接接头的变形失效机制。结果表明：钢作上板时接头的成形质量、静力学性能以及瞬时刚度特性优于铝合金作上板时的接头。铆点数量的增加能够显著提升钢铝异种自冲铆接接头的性能，且对铝合金作上板时接头的提升效果更好。单点接头的静载失效形式均为铆钉与下板分离，双点接头的失效形式分别为双铆钉从ST14冷轧钢下板脱离以及5083铝合金下板断裂。接头失效后上板均发生翘曲变形，以塑性更好的材料作为上板，变形特征更明显，并能够获得更好的承载能力。铆点数量增加能够有效抑制板材塑性变形，并进一步提升接头的承载能力。

The deformation failure mechanism of self-piercing riveted structure for ST14 cold-rolled steel and 5083 aluminum alloy dissimilar sheet combination under static loading was studied. Then, the forming quality of steel-aluminum self-piercing riveting was compared and analyzed, and the process parameters were determined. Furthermore, by tensile-shear test, the influences of lap sequence and number of rivets on static mechanical properties, instantaneous stiffness and failure behavior of the joints were analyzed, and the deformation failure mechanism of the steel-aluminum dissimilar self-piercing riveted joints under static loading was investigated. The results show that the forming quality, static mechanical properties and instantaneous stiffness characteristics of the joints with the steel as upper sheet are better than that with the aluminum alloy as upper sheet. The performance of steel-aluminum self-piercing riveted joints can be improved significantly by increasing the number of rivets, and has a better effect on the joints with the aluminum alloys as lower sheet. The static loading failure modes of single-rivet joints are the rivet separated from lower sheet, and the failure modes of double-rivet joints are the rivet separated from ST14 cold-rolled steel lower sheet and the fracture of 5083 aluminum alloy lower sheet, respectively. The upper sheet is deformed after the failure of the joints, and the deformation characteristics are more obvious, and the better bearing capacity can be obtained when taking the better plastic material as the upper sheet. The increasing of the number of rivets can effectively restrain the plastic deformation of the sheet and further improves the bearing capacity of the joints.

基金项目：

湖北省自然科学基金计划项目(2023AFB303)；长江大学科研发展基金项目(8021002902)

作者简介：张先炼(1992-)，男，博士，讲师，E-mail：xlianzhang@yangtzeu.edu.cn

参考文献：

[1]吴永中. 中国宝武碳减排宣言：力争2023年“碳达峰”2050年实现“碳中和”[J]. 冶金动力, 2021, (1):102.

Wu Y Z. China Baowu declaration on carbon emission reduction：Striving to achieve “carbon neutrality” in 2023 and “carbon peak” in 2050[J]. Metallurgical Power, 2021，(1):102.

[2]王海风, 平晓东, 周继程, 等. 中国钢铁工业绿色发展回顾及展望[J]. 钢铁, 2023, 58(2):8-18.

Wang H F, Ping X D, Zhou J C, et al. Review and prospect of green development for Chinese steel industry[J]. Iron & Steel, 2023, 58(2):8-18.

[3]赵文增. 车身高强钢/铝合金热自冲铆连接工艺及力学性能研究[D]. 长春：吉林大学, 2020.

Zhao W Z. Study on Hot Self-piercing Riveting Technology and Mechanical Properties of Riveted High-strength Steel/Aluminium Joint for Car Bodies[D]. Changchun：Jilin University, 2020.

[4]Singh J, Arora K S, Shukla D K. Dissimilar MIG-CMT weld-brazing of aluminium to steel: A review[J]. Journal of Alloys and Compounds, 2019, 783：753-764.

[5]刘洋, 庄蔚敏, 何晓聪. 自冲铆接头成形及力学性能数值模拟关键技术研究进展[J]. 机械工程学报, 2022, 58(22):168-185.

Liu Y, Zhuang W M, He X C. Research progress on key technology of numerical simulation of forming process and mechanical properties of self-piercing riveted joint[J]. Journal of Mechanical Engineering, 2022, 58(22):168-185.

[6]顾成波, 龙广鹏, 于万元, 等. 压铸铝材料稳定性对自冲铆接接头成形质量和力学性能影响[J]. 锻压技术, 2023, 48(11):124-132，140.

Gu C B, Long G P, Yu W Y, et al. Influence of die-cast aluminum material stability on forming quality and mechanical properties of self-piercing riveted joints[J]. Forging & Stamping Technology, 2023, 48(11):124-132，140.

[7]吕远, 亓海全, 眭文杰, 等. HC340LA镀锌板/6061-T6铝合金自冲铆接头力学性能研究[J]. 汽车工艺与材料, 2020, (9):6-11.

Lyu Y, Qi H Q, Sui W J, et al. Mechanical property research on self-tapping rivet of HC340LA galvanized plate/6061-T6 aluminum alloy[J]. Automobile Technology & Material, 2020, (9):6-11.

[8]吕枫, 邓将华, 陈如明, 等. 板料组合方式对铝/钢异种金属板自冲铆接头性能的影响[J]. 塑性工程学报, 2019, 26(4):134-141.

Lyu F, Deng J H, Chen R M, et al. Effect of sheet combination modes on joints properties of aluminum/steel dissimilar metal sheets under self-piercing riveting[J]. Journal of Plasticity Engineering, 2019, 26(4):134-141.

[9]张先炼, 何晓聪, 程强, 等. 铆钉数量及间距对自冲铆接头性能的影响[J]. 宇航材料工艺, 2016, 46(2):53-56.

Zhang X L, He X C, Cheng Q, et al. Influence of number and distance of rivets on the performance of self-piercing riveted joints[J]. Aerospace Materials & Technology, 2016, 46(2):53-56.

[10]张永超, 黄志超, 贾颖莲. B1500HS高强度钢与AA5052铝合金自冲铆接成形与力学性能分析[J]. 塑性工程学报, 2021, 28(10):122-129.

Zhang Y C, Huang Z C, Jia Y L. Forming and mechanical properties analysis of self-piercing riveted joints of B1500HS high strength steel and AA5052 aluminum alloy[J]. Journal of Plasticity Engineering, 2021, 28(10):122-129.

[11]Huang L, Shi Y D, Guo H D, et al. Fatigue behavior and life prediction of self-piercing riveted joint[J]. International Journal of Fatigue, 2016, 88:96-110.

[12]Xing B Y, He Y C, Wang Y Q, et al. Study of mechanical properties for copper alloy H62 sheets joined by self-piercing riveting and clinching[J]. Journal of Materials Processing Technology, 2014, 216：28-36.

[13]Duan J R, Chen C. Effect of edge riveting on the failure mechanism and mechanical properties of self-piercing riveted aluminum joints[J]. Engineering Failure Analysis, 2023, 150：107305.

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