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2A10铝合金铆钉电磁铆接微观组织演化研究 被引量:2

Investigation on Microstructure Evolution of 2A10 Aluminum Alloy Rivet in Electromagnetic Riveting
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摘要 本文以2A10铝合金铆钉为材料,研究高速冲击电磁铆接后铆钉镦头微观组织演化,采用金相和透射电镜手段进行分析,结果表明高速冲击作用导致塑性变形主要集中于铆钉镦头的绝热剪切带区域,绝热剪切带宽度约为100 μm。TEM组织表明绝热剪切带内部产生宽度0.5 μm层片状亚晶,并且亚晶内部存在大量缠结的位错。剧烈塑性变形的绝热剪切带显微硬度明显高于其他区域,并且铆钉镦头硬度分布与变形组织分布一致。 In this paper, 2A10 aluminum alloy rivets were used for electromagnetic riveting experiments. The microstructure evolution in rivet tail was investigated after electromagnetic riveting. The mi-crostructure evolutions were analyzed by the optical microscope and transmission electron mi-croscope. Results showed that plastic deformations mainly concentrated in adiabatic shear band of rivet tail due to the high speed impact. The width of adiabatic shear band was about 100 μm. TEM observations demonstrated that lamellar sub-grains with the width of 0.5 μm generated in adiabatic shear band, and many tangled dislocations existed within them. The hardness values in adiabatic shear band with severe plastic deformations were significantly higher than that of other zone, and the hardness distribution law accorded with deformation microstructure distributions.
作者 黄宗斌 韦超忠 瞿刚 徐志丹
机构地区 上汽通用五菱汽车股份有限公司
出处 《材料科学》 2017年第3期260-265,共6页 Material Sciences
关键词 电磁铆接 2A10 铝合金 微观组织 硬度
分类号 TG14 [金属学及工艺—金属材料]
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  • 1张海军,左洪福,许国康,王书辉.电磁铆接工艺在机翼整体油箱上的应用[J].兵工学报,2005,26(6):834-837. 被引量:8
  • 2邓将华,李春峰.电磁铆接技术研究概况及发展趋势[J].锻压技术,2006,31(5):10-14. 被引量:22
  • 3Wang H L, Chen T C, Hsu H T. Quality verification on riveting process of a pneumatic rivet tool [J]. Experimental Techniques, 2008, 31(6): 57-63.
  • 4Cheraghi S H. Effect of variations in the riveting process on the quality of riveted joints [J]. International Journal of Advanced Manufacturing Technology, 2008, 39 ( 11 - 12 ): 1144 -1155.
  • 5Richards B, Howard K, Williams S. Lug cutting and trimming of the carbon fiber wing panels of the A400m with portable hand positioned tool [EB/OL]. (2010 - 01 - 11). http: //www. electroimpact, com/research/07ATC- 207. pdf.
  • 6Taskar Z, Tocco B, Uetake I. Compact HH- 553 handheld riveter [ EB/OL]. ( 2020 - 01 - 11 ). http: // www. electroimpact, com/research/08FAS0014, pdf.
  • 7Deng J H, Yu H P, Li C F. Numerical and experimental investigation of electromagnetic riveting [J]. Materials Science and Engineering: A, 2009, 499(1 - 2) : 242 - 247.
  • 8Zieve P B. An electromagnetic pulse actuator [P]. European Parent, 0293257, 1988.
  • 9Zieve P B. Low voltage electromagnetic riveter [D]. Seattle, Ph. D. Dissertation of University of Washington, 1986.
  • 10Zieve P B, Durack L, Huller B. Advanced EMR technology[EB/OL]. (2010 - 01 - 11). http: //www. electroimpaet. com/.%SCresearch%5C922408. pdf.

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材料科学
2017年 第3期

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