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铸造铝合金真空浸渗针孔修复组织及性能研究 被引量:1

The microstructure and properties of cast aluminum alloy after pinholes repair by vacuum infiltration
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摘要 本文采用真空浸渗技术,对铸造铝合金(ZL101A)针孔缺陷进行修复,并研究其修复后的综合性能.修复前后的试样分别进行显微组织及能谱分析、摩擦磨损实验、盐雾腐蚀试验等性能测试.研究结果表明:真空浸渗工艺后的铸铝合金表面针孔有效得到填充;摩擦磨损曲线更加平滑,摩擦系数0.61小于未浸渗试样的摩擦系数0.73;盐雾实验测试防腐等级由3级升到6级,表明真空浸渗修复工艺较好地提高了铸造铝合金的力学性能与防腐蚀性能. In this paper, the pinholes of cast aluminum alloy were repaired by vacuum infiltration technology. And the comprehensive performance of the repaired were studied. Before and after vacuum infiltration, the samples were tested for their microstructure, energy spectrum analysis, friction and wear test and salt spray test. The results show that the casting aluminum alloy surface after vacuum infiltration technology was effectively got filled. The friction and wear curve is smoother, and the coefficient of friction is reduced from 0.73 to 0.61. Salt spray test corrosion protection grade is increased from 3 to 6. These figures show the vacuum infiltration repair process can improve the mechanical properties and corrosion resistance of cast aluminum alloy.
作者 边培莹
机构地区 陕西省表面工程与再制造实验室(西安文理学院)
出处 《材料科学与工艺》 EI CAS CSCD 北大核心 2017年第2期92-96,共5页 Materials Science and Technology
基金 陕西省教育厅专项科研计划项目(15JK2139)
关键词 铸造铝合金(ZL101A) 针孔修复 真空浸渗 组织及性能 cast aluminum alloy(ZL101A) pinhole repair vacuum infiltration microstructure and properties
分类号 TG245 [金属学及工艺—铸造]
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  • 1吴憩棠.汽车动力传动系统铸件的浸渗技术[J].汽车与配件,2004(11):34-35. 被引量:1
  • 2Suresh.材料的疲劳[M].北京:国防工业出版社,1999..
  • 3SAVAIDIS G,SAVAIDIS A,SAMASPHYROS G T,et al.On size and technological effects in fatigue analysis and prediction of engineering materials and components[J].International Journal of Mechanical Sciences,2002,44(3):521-543.
  • 4SONSINO C M,ZIESE J.Fatigue strength and applications of cast aluminum alloys with different degrees of porosity[J].International Journal of Fatigue,1993,15:75-83.
  • 5GALL K,YANG N,HORSTEMEYER M,et al.The influence of modified intermetallics and Si particles on fatigue crack paths in a cast A356 Al alloy[J].Fatigue Engng Mater Struct,2000,23(2):159-172.
  • 6GALL K,YANG N,HORSTEMEYER M,et al.The debonding and fracture of Si particles during the fatigue of a cast Ai-Si alloy[J].Metall Mater Trans A,1999,30:3079-3087.
  • 7COUPER M J,NEESON A E,GRIFFITH J R.Casting defects and the fatigue life of an aluminum casting alloy[J] ,Fatigue Fract Eng Mater Struct,1990,13:213-227.
  • 8SKALLERUD B,IVELAND T,HARKEGARD G.Fatigue life assessment of aluminum alloys with casting defects[J].Eng Fract Mech,1993,44:857-874.
  • 9WANG Q G,APELIAN D,LADOS D A.Fatigue behavior of A356-T6 aluminum cast alloys.Part I.Effect of casting defects[J].Journal of Light Metals,2001,1:73-84.
  • 10YI J Z,GAO Y X,LEE P D.Scatter in fatigue life due to effects of porosity in cast A356-T6 aluminum-silicon alloys[J].Metal Mater Trans A,2003,34:1879-1890.

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材料科学与工艺
2017年 第2期

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