• DocumentCode
    1285519
  • Title

    Influence of temperature, humidity, and defect location on delamination in plastic IC packages

  • Author

    Tay, Andrew A O ; Lin, T.Y.

  • Author_Institution
    Center for IC Failure Anal. & Reliability, Nat. Univ. of Singapore, Singapore
  • Volume
    22
  • Issue
    4
  • fYear
    1999
  • fDate
    12/1/1999 12:00:00 AM
  • Firstpage
    512
  • Lastpage
    518
  • Abstract
    The modified J-integral and the stress intensity factor based on linear elastic fracture mechanics can be applied to predict the growth of interfacial delamination in integrated circuit (IC) packages. One of the key parameters required is the interfacial fracture toughness. This paper describes the measurement of the interfacial fracture toughness as a function of temperature and relative humidity using a three-point bending test. The interfacial fracture toughness was found to decrease with temperature and relative humidity. It is proposed that delaminations propagate from very small voids or defects present at the interface. The effect of the location of these interfacial defects or cracks on delamination was studied. The IC package evaluated in this paper was an 80-pin quad flat package with a 0.2 mm defect or crack at the edge or at the center of the interface. It was found that as the temperature of the package was increased, the stress intensity factor of the edge crack was higher than that of the center crack. However, whether the edge crack will propagate first as temperature is increased depends on the ratio of mode II interface toughness to that of the mode I interface toughness. For the package under investigation, it was established that when this ratio is less than 2.69 the edge crack would propagate first, otherwise the center crack would. For small defects, it was found that the water vapor pressure developed at the interface did not have a significant effect on the value of the crack-tip stress intensity factor
  • Keywords
    bending; delamination; fracture mechanics; fracture toughness; integrated circuit packaging; plastic packaging; center crack; defect location; edge crack; interfacial delamination; interfacial fracture toughness; linear elastic fracture mechanics; mode I interface toughness; mode II interface toughness; modified J-integral; plastic IC packages; quad flat package; relative humidity; stress intensity factor; temperature effects; three-point bending test; voids; water vapor pressure; Adhesives; Delamination; Electronic packaging thermal management; Humidity; Integrated circuit packaging; Moisture; Plastic integrated circuit packaging; Temperature; Thermal expansion; Thermal stresses;
  • fLanguage
    English
  • Journal_Title
    Components and Packaging Technologies, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1521-3331
  • Type

    jour

  • DOI
    10.1109/6144.814966
  • Filename
    814966