Advanced Search
ZENG Kai, HE Xiaocong, XING Baoying. Effect of the degree of rivet opening on the rigidity of the interlock in self-piercing riveting joints[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2019, 40(6): 143-147. DOI: 10.12073/j.hjxb.2019400169
Citation: ZENG Kai, HE Xiaocong, XING Baoying. Effect of the degree of rivet opening on the rigidity of the interlock in self-piercing riveting joints[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2019, 40(6): 143-147. DOI: 10.12073/j.hjxb.2019400169
shu

Effect of the degree of rivet opening on the rigidity of the interlock in self-piercing riveting joints

  • Kunming University of Science and Technology, Kunming 650500, China

More Information
  • Received Date: April 27, 2018
    Graphical Abstract
    • Abstract
  • The effect of the degree of rivet opening on the rigidity of the interlock in 5052 a-alloy self-piercing riveting joints was analyzed by using image processing method. Two type joints with different rivet opening were tested in the proper test machine. The CCD with digital microscope was used to capture the images of the interlock deformation in the loading process. The relative slip between the rivet tip and the bottom sheet was calculated by using correlation analysis method, and the amount of the slip was defined as a measure of stiffness of SPR joints. Finite element models of two type joints with different rivet opening were established to simulate the deformation process of the interlock in tensile test. The results show that a critical value of slip-loading exists in the loading process. When the load value is lower than the critical value, the structural integrity of the interlock is kept and no apparent slip in the interlock can be detected. When the load value is greater than the critical value, the slip in the interlock can be observed and it increases with the increasing of the loading, and the rivet is pulled out, which is named pull-out failure model. The open degree of rivets has a large effect on the strength and rigidity of SPR structure, and high rivet degree can increase the stiffness of SPR joints.
    • FullText(HTML)
    • References (14)
  • He X C, 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.
    邢保英,何晓聪,王玉奇,等.铝合金自冲铆接头疲劳性能及失效机理[J].焊接学报, 2016, 37(6):50-54 Xing Baoying, He Xiaocong, Wang Yuqi, et al. Fatigue properties and failure mechanisms of self-piercing riveted joints in aluminium alloy[J]. Transactions of the China Welding Institution, 2016, 37(6):50-54
    何晓聪.薄板材料连接新技术[M].北京:冶金工业出版社, 2016.
    何晓聪,何家宁,柯建宏,等.自冲铆接接头的质量评价及强度可靠性预测[J].湖南大学学报, 2010, 37(12):1-4 He Xiaocong, He Jianing, Ke Jianhong, et al. Quality evaluation and strength reliability prediction of self-pierce riveted joints[J]. Journal of Hunan University, 2010, 37(12):1-4
    曾凯,何晓聪,丁燕芳,等.一种自冲铆接头的力学性能检测方法:中国, 201310565579.1[P]. 2013−11−14.
    Han L, Chrysanthou A, O'Sullivan J M. Fretting behavior of self-piercing riveted aluminum alloy joints under different interfacial conditions[J]. Materials and Design, 2006, 27(3):200-208.
    Chen Y K, Han L, Chrysanthou A, et al. Fretting wear in self-piercing riveted aluminum alloy sheet[J]. Wear, 2003, 255(7-12):1463-1470.
    He X C, Deng C, Zhang X L. Fretting behavior of SPR joining dissimilar sheets of titanium and copper alloys[J]. Metals, 2016, 6(12):1-9.
    Zhao L, He X C, Xing B Y, et al. Influence of sheet thickness on fatigue behavior and fretting of self-piercing riveted joints in aluminum alloy 5052[J]. Materials&Design, 2015(87):1010-1017.
    Xing B Y, He X C, Zeng K, et al. Mechanical properties of self-piercing riveted joints in aluminum alloy 5052[J]. International Journal of Advanced Manufacturing Technology, 2014, 75(1-4):351-361.
    He X C, Zhao L, Deng C J, et al. Self-piercing riveting of similar and dissimilar metal sheets of aluminum alloy and copper alloy[J]. Materials&Design, 2015, 65:922-933.
    He X C, Wang Y F, Lu Y, et al. Self-piercing riveting of similar and dissimilar titanium sheet materials[J]. International Journal of Advanced Manufacturing Technology, 2015, 80(9-12):2105-2115.
    Xing B Y, He X 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, 2015, 216:28-36.
    邢保英,何晓聪,王玉奇,等.铝合金自冲铆接头静力学性能及失效机理分析[J].焊接学报, 2015, 36(9):47-50 Xing Baoying, He Xiaocong, Wang Yuqi, et al. Influence of distribution types of rivets on the mechanical properties of self-piercing riveting joints[J]. Transactions of the China Welding Institution, 2015, 36(9):47-50
    • Related Articles

  • Related Articles

    [1]WANG Bo, SUN Zhichao, ZHANG Hongtao, WU Baocai, HU Zhenhai. Design and analysis on the device of heat-assisted ultrasonic additive manufacturing[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2019, 40(11): 111-118. DOI: 10.12073/j.hjxb.2019400297
    [2]JING Hongyang<sup>1,2</sup>, XU Jingjing<sup>1,2</sup>, XU Lianyong<sup>1,2</sup>, HAN Yongdian<sup>1,2</sup>, ZHAO Lei<sup>1,2</sup>. Finite element simulation of the restraint intensity of rigid butt-jointed cracking specimen and VRC specimen[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2018, 39(8): 1-5. DOI: 10.12073/j.hjxb.2018390190
    [3]LU Yongxin1,2,3, LI Xiao1, JING Hongyang2,3, XU Lianyong2,3, HAN Yongdian2,3. Finite element simulation of carbon steel welded joint corrosion[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2018, 39(5): 10-14. DOI: 10.12073/j.hjxb.2018390112
    [4]CHEN Yongxiong, LIANG Xiubing, SHANG Junchao, XU Binshi. Analysis of FEA of residual stress for thermal sprayed coating on shaft parts[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2013, (6): 13-16.
    [5]ZHU Hai, GUO Yanling, ZHANG Shanshan. Finite element analysis of thermal-mechanical coupled model for friction welded joint of 35Cr2Ni4MoA high-strength steel[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2013, (4): 81-84.
    [6]LU Xuedong, WU Mingfang, CENG Yue, WANG Huan, SHEN Songpei. Numerical simuation of welding residual deformation in welded joints of marine steel plate by FEM[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2012, (5): 45-48.
    [7]ZHU Song, ZHOU Zhenping, QIU Xiaoming. Finite element modeling of residual stress in bonding interface of Ni-Cr/porcelain[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2012, (2): 45-48,52.
    [8]ZHU Miaofeng, LU Fenggui, CHEN Yunxia, YAO Shun. Finite element analysis on laser welding of aluminum alloy[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2008, (4): 97-100.
    [9]ZHANG Hong-wu, ZHANG Zhao, CHEN Jin-tao. Finite element analysis of friction stir welding process[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2005, (9): 13-18.
    [10]WU Yan-qing, PEI Yi, YANG Yong-xing, ZHANG Jian-xun. Finite Element Analysis of Transformation Super-plastic Welding[J]. TRANSACTIONS OF THE CHINA WELDING INSTITUTION, 2000, (4): 65-68.

  • Cited by

    Periodical cited type(10)

    1. 曾凯,田海,邢保英,张洪申,王凯伟,何晓聪. 自冲铆机械内锁结构形态的超声无损检测方法. 机械工程学报. 2024(02): 10-16 .
    2. 张子豪,曾凯,张洪申,邢保英,丁燕芳,田海. 基于球形底模的铝合金自冲铆接工艺多元回归模型. 焊接学报. 2024(07): 59-66 . 本站查看
    3. 游仁正,窦炜,张洪申,邢保英,曾凯. 2024铝合金自冲铆成形工艺参数对接头微动滑移的影响. 塑性工程学报. 2024(11): 105-111 .
    4. 陈贵坤,曾凯,邢保英,何晓聪,孙晓婷. 自冲铆接铆钉材料流场的数值模拟研究. 锻压技术. 2023(01): 96-102 .
    5. 王增强,邱然锋,张坤,闫炳辰,孟令燃,赵培峰. 铆钉硬度对铝合金/钢电阻铆焊接头性能的影响. 材料热处理学报. 2023(01): 181-190 .
    6. 王端义. 基于DEFORM的5052铝合金板料防水铆接成形研究. 锻压技术. 2023(12): 81-86 .
    7. 杨进,邢保英,何晓聪,曾凯,周路. 腐蚀环境下自冲铆接头竞争失效机制及力学性能分析. 焊接学报. 2022(07): 69-75+117 . 本站查看
    8. 孙晓婷,曾凯,何晓聪,邢保英. 铝合金自冲铆成形过程最大冲压载荷的反演模型. 中国机械工程. 2021(11): 1341-1345+1353 .
    9. 任柯旭,邱然锋,张肖飞,赵江辉. 铝合金/钢的点连接技术研究现状. 材料热处理学报. 2021(09): 1-11 .
    10. 宋承裕,何晓聪,卢嘉伟,魏文杰,王世鹏. 铝/铜合金自冲铆接头性能的研究. 兵器材料科学与工程. 2020(04): 126-130 .

    Other cited types(9)

Catalog

    Get Citation
    PDF
    XML
    Article views (410) PDF downloads (55) Cited by(19)
    Turn off MathJax
    Article Contents
    Abstract
    References
    Related Articles

    Website Copyright © Editorial Office of Transactions of the China Welding Institution, Welding Journals Publishing HouseTel:0451-86323218Address:No. 2077, Chuangxin Road, Songbei District, Harbin

    Supported by: Beijing Renhe Information Technology Co. Ltd  Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return