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吉林大学学报(工学版) 2015

多铆钉自冲铆接头力学性能机理

, PP. 1488-1494

邢保英, 何晓聪, 王玉奇, 邓成江

Keywords: 材料合成与加工工艺,多铆钉,疲劳寿命,变差系数,断口分析

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Abstract:

以3颗铆钉连接的5052铝合金自冲铆接头为对象,通过试验的方法研究多铆钉自冲铆接头力学性能机理。获得了m-o自冲铆接头(简称m-o接头)和m-i自冲铆接头(m-i接头)的静力学和疲劳试验数据,选择正态分布和二参数威布尔分布检验数据的有效性,通过最小二乘法获得疲劳寿命最佳拟合直线和疲劳载荷-疲劳寿命曲线二参数幂函数方程。结果表明:接头静态和疲劳失效形式分别为下板被拉出和下板断裂。铆钉分布结构对接头静强度、变形能力、能量吸收能力、疲劳寿命及它们的稳定性均有影响。m-i接头静力学性能良好,m-o接头整体具有良好的疲劳性能。疲劳测试中,铆钉分布结构会导致首要和次要承载顺序的产生,疲劳断口为首要承载顺序所在位置。

References

[1]	何晓聪, 何家宁, 柯建宏, 等.自冲铆接头的质量评价及强度可靠性预测[J].湖南大学学报:自然科学版, 2010, 37(12):1-4. He Xiao-cong, He Jia-ning, Ke Jian-hong, et al. Quality evaluation and strength reliability prediction of self-pierce riveted joints[J]. Journal of Hunan University(Natural Science), 2010, 37(12):1-4.
[2]	He X. Coefficient of variation and its application to strength prediction of self-piercing riveted joints[J].Scientific Research and Essays, 2011(34):6850-6855.
[3]	Li D, Han L, Thornton M, et al. Influence of edge distance on quality and static behaviour of self-piercing riveted aluminum joints[J].Material and Design, 2012, 34: 22-31.
[4]	Hoang N H, Hanssen A G, Langseth M, et al. Structural behaviour of aluminium self-piercing riveted joints: An experimental and numerical investigation[J].International Journal of Solids and Structures, 2012, 49(23-24): 3211-3223.
[5]	高镇同, 傅惠民, 梁美训. S-N曲线拟合法[J].北京航空学院学报, 1987 (1): 115-119. Gao Zhen-tong, Fu Hui-min, Liang Mei-xun. A method for fitting S-N curve[J].Journal of Beijing University of Aeronautics and Astronautics, 1987 (1): 115-119.
[6]	He X, Pearson I, Young K. Self-pierce riveting for sheet materials: state of the art[J].Journal of Material Processing Technology, 2008, 199(1-3): 27-36.
[7]	He X, Gu F, Ball A. Recent development in finite element analysis of self-piercing riveted joints[J]. International Journal of Advanced Manufacturing Technology, 2012, 58(5-8): 643-649.
[8]	Han L, Chrysanthou A, Young K W, et al. Characterization of fretting fatigue in self-piercing riveted aluminium alloy sheets[J]. Fatigue Fract Engng Master Struct, 2006, 29(8):646-654.
[9]	Calabrese L, Bonaccorsi I, Proverbio E, et al. Durability on alternate immersion test of self-piercing riveting aluminium joint[J].Materials and Design, 2013, 46: 849-856.
[10]	Fu M, Mallick P K. Fatigue of self-piercing riveted joints in aluminum alloy 6111[J]. International Journal of Fatigue, 2003, 25(3):183-189.
[11]	Sun X, Stephens E V, Khaleel M A. Fatigue behaviors of self-piercing rivets joining similar and dissimilar sheet metals[J]. International Journal of Fatigue, 2007, 29(2):370-386.
[12]	Hoang N H, Langseth M, Porcaro R, et al. The effect of the riveting process and aging on the mechanical behaviour of an aluminium self-piercing riveted connection[J].European Journal of Mechanics A/Solids, 2011, 30(5):619-630.
[13]	He X, Oyadiji S O. Application of coefficient of variation in reliability-based mechanical design and manufacture[J].Journal of Materails Processing Technology, 2001, 119(1-3): 374-378.
[14]	Li D, Han L, Thorntom M, et al. Influence of rivet to sheet edge distance on fatigue strength of self-piercing riveted aluminum joints[J].Materials Science & Engineering A, 2012, 558: 242-252.
[15]	Karbhari V M, Wang Q. Influence of triaxial braid denier on ribbon-based fiber reinforced dental compositers[J]. Dental Materials, 2007, 23(8):969-976.

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