• DocumentCode
    1067400
  • Title

    Interfacial reaction studies on lead (Pb)-free solder alloys

  • Author

    Kang, Sung K. ; Shih, D.-Y. ; Fogel, K. ; Lauro, P. ; Yim, Myung-Jin ; Advocate, Gerald G., Jr. ; Griffin, M. ; Goldsmith, C. ; Henderson, Donald W. ; Gosselin, Timothy A. ; King, David E. ; Konrad, John J. ; Sarkhel, Amit ; Puttlitz, Karl J.

  • Author_Institution
    IBM T. J. Watson Res. Center, Yorktown Heights, NY, USA
  • Volume
    25
  • Issue
    3
  • fYear
    2002
  • fDate
    7/1/2002 12:00:00 AM
  • Firstpage
    155
  • Lastpage
    161
  • Abstract
    Recently, the research and development activities for replacing Pb-containing solders with Pb-free solders have been intensified due to both competitive market pressures and environmental issues. As a result of these activities, a few promising candidate solder alloys have been identified, mainly, Sn-based alloys. A key issue affecting the integrity and reliability of solder joints is the interfacial reactions between a molten solder and surface finishes in the solder joint structures. In this paper, a fundamental study of the interfacial reactions between several Pb-free candidate solders and surface finishes commonly used in printed-circuit cards is reported. The Pb-free solders investigated include Sn-3.5 Ag, Sn-3.8 Ag-0.7 Cu, and Sn-3.5 Ag-3.0 Bi. The surface finishes investigated include Cu, Au/Ni(P), Au/Pd/Ni(P), and Au/Ni (electroplated). The reaction kinetics of the dissolution of surface finishes and intermetallic compound growth have been measured as a function of reflow temperature and time. The intermetallic compounds formed during reflow reactions have been identified by SEM with energy dispersive x-ray spectroscopy.
  • Keywords
    X-ray chemical analysis; dissolving; environmental factors; printed circuit manufacture; reflow soldering; scanning electron microscopy; silver alloys; tin alloys; Au-Ni; Au-NiP; Au-Pd-NiP; Cu; SEM; Sn-Ag; Sn-Ag-Bi; Sn-Ag-Cu; dissolution; energy dispersive X-ray spectroscopy; environmental factors; interfacial reaction; intermetallic compound growth; lead-free solder alloy; printed circuit card; reaction kinetics; reflow reaction; surface finish; Bismuth; Gold; Intermetallic; Kinetic theory; Lead; Research and development; Soldering; Surface finishing; Temperature; Time measurement;
  • fLanguage
    English
  • Journal_Title
    Electronics Packaging Manufacturing, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1521-334X
  • Type

    jour

  • DOI
    10.1109/TEPM.2002.801165
  • Filename
    1158825