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The intermetallic formation and growth kinetics at the interface of near eutectic tin-silver-copper solder alloys and gold/nickel metallization.

机译:在接近共晶的锡银铜焊料合金与金/镍金属化的界面处,金属间的形成和生长动力学。

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摘要

The formation of a one micron thick layer of an intermetallic compound between a solder alloy and a metallic substrate generally constitutes a good solder joint in an electronic device. However, if the compound grows too thick, and/or if multiple intermetallic compounds form, poor solder joint reliability may result. Thus significant interest has been focused on intermetallic compound phase selection and growth kinetics at such solder/metal interfaces.;The present study focuses on one such specific problem, the formation and growth of intermetallic compounds at near eutectic Sn-Ag-Cu solder alloy/Ni interfaces. Sn-3.0Ag-0.5Cu solder was reflowed on Au/Ni substrates, resulting in the initial formation and growth of (CuNi)6Sn 5 at Sn-3.0Ag-0.5Cu /Ni interfaces. (NiCu)3Sn4 formed between the (CuNi)6Sn5 and the Ni substrate when the concentration of Cu in the liquid SnAgCu solder decreased to a critical value which depended upon temperature: 0.37, 0.31 and 0.3(wt.%) at reflow temperatures of 260°C, 245°C and 230°C respectively. The growth rate of (CuNi)6Sn5 was found to be consistent with extrapolations of a diffusion limited growth model formulated for lower temperature, solid state diffusion couples. The long range diffusion of Cu did not limit growth rates.;The spalling of (CuNiAu)6Sn5 from (NiCu)3 Sn4 surfaces during reflow was also examined. When the Cu concentration in the solder decreased to approximately 0.28wt.%, the (Cu,Ni,Au) 6Sn5 was observed to spall. Compressive stress in (CuNiAu) 6Sn5 and weak adhesion between (CuNiAu)6Sn 5 and (NiCu)3Sn4 was found to cause this effect.
机译:在焊料合金和金属基底之间形成一微米厚的金属间化合物层通常构成电子设备中的良好焊接接头。但是,如果化合物变得太厚,和/或形成多种金属间化合物,则可能导致焊点可靠性差。因此,人们非常关注这种焊料/金属界面上的金属间化合物的相选择和生长动力学。;本研究着眼于这样一个特殊的问题,即在近共晶Sn-Ag-Cu焊料合金/下金属间化合物的形成和生长。 Ni接口。 Sn-3.0Ag-0.5Cu焊料在Au / Ni衬底上回流,导致(CuNi)6Sn 5在Sn-3.0Ag-0.5Cu / Ni界面处初步形成和生长。当液态SnAgCu焊料中的Cu浓度降低至临界值时,在(CuNi)6Sn5和Ni衬底之间形成(NiCu)3Sn4,该值取决于温度:回流温度为260时为0.37、0.31和0.3(wt。%)分别为°C,245°C和230°C。发现(CuNi)6Sn5的生长速率与为低温固态扩散对配制成的扩散受限生长模型的外推法一致。 Cu的长距离扩散并没有限制生长速率。还研究了回流期间(NiCu)3 Sn4表面的(CuNiAu)6Sn5剥落。当焊料中的Cu浓度降低到约0.28wt。%时,观察到(Cu,Ni,Au)6Sn5剥落。发现(CuNiAu)6Sn5中的压应力以及(CuNiAu)6Sn 5与(NiCu)3Sn4之间的弱附着力会导致这种效果。

著录项

  • 作者

    Gao, Mao.;

  • 作者单位

    State University of New York at Binghamton.;

  • 授予单位 State University of New York at Binghamton.;
  • 学科 Engineering Materials Science.
  • 学位 Ph.D.
  • 年度 2010
  • 页码 172 p.
  • 总页数 172
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 水产、渔业;
  • 关键词

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