Full Three Dimensional Rheokinetic Modeling of Mold Flow in Thin Package using Modified Parallel Plate Rheometry

개선된 회전형 레올로지 측정법을 이용한 박형 반도체 패키지 내에서의 3차원 몰드 유동현상 연구

  • LEE Min Woo (Material & Process Development Team, R&D center, Amkor Technology Korea, Inc.) ;
  • YOO Min (Material & Process Development Team, R&D center, Amkor Technology Korea, Inc.) ;
  • YOO HeeYoul (Material & Process Development Team, R&D center, Amkor Technology Korea, Inc.)
  • Published : 2003.11.01

Abstract

The EMC's rheological effects on molding process are evaluated in this study. When considering mold processing for IC packages, the major concerning items in current studies are incomplete fill, severe wire sweeping and paddle shifts etc. To simulate EMC's fast curing rheokinetics with 3D mold flow behavior, one should select appropriate rheometry which characterize each EMC's rheological motion and finding empirical parameters for numerical analysis current studies present the new rheometry with parallel plate rheometry for reactive rheokinetic experiments, the experiment and numerical analysis is done with the commercial higher filler loaded EMC for the case of Thin Quad Plant Packages (TQFP) with package thickness below 1.0 mm. The experimental results and simulation results based on new rheometry matches well in point of the prediction of wire sweep, filling behavior of melt front advancement and void trapping position.

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