DocumentCode :
1411981
Title :
Non-Newtonian Flow Formulation of the Underfill Process in Flip-Chip Packaging
Author :
Young, Wen-Bin
Author_Institution :
Dept. of Aeronaut. & Astronaut., Nat. Cheng Kung Univ., Tainan, Taiwan
Volume :
1
Issue :
12
fYear :
2011
Firstpage :
2033
Lastpage :
2037
Abstract :
In the packaging process, the difference between thermal expansion coefficients of the chip and substrate causes thermal fatigue at solder joints. To avoid this thermal fatigue, epoxy encapsulant is filled into the gap between the substrate and chip by the capillary force. In modeling the underfilling process, the viscosity of the encapsulant may show the behaviors of shear thinning, shear thickening, or both. A formulation based on Hele-Shaw model is employed in this paper to simulate the underfill process by considering the bump resistance as a source term in the equation. A control volume finite element together with the finite difference is used to solve the equations. A penalty method is used to evaluate the pressure iteratively and assures the mass balance as convergence is reached. The result shows the ability to incorporate with the complicated viscosity model in the simulation. The effects of the shear rate on viscosity and the velocity field are also shown to be important.
Keywords :
convergence; electronics packaging; encapsulation; finite difference methods; finite element analysis; flip-chip devices; non-Newtonian flow; solders; substrates; thermal expansion; thermal stress cracking; viscosity; Hele-Shaw model; bump resistance; capillary force; control volume finite element; convergence; epoxy encapsulant; finite difference; flip-chip packaging; mass balance; nonNewtonian flow formulation; packaging process; penalty method; shear rate; shear thickening; shear thinning; solder joints; substrate; thermal expansion coefficients; thermal fatigue; underfill process; underfilling process; velocity field; viscosity model; Equations; Mathematical model; Packaging; Permeability; Substrates; Viscosity; Capillary flow; flip-chip; power-law fluid; underfill;
fLanguage :
English
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
Publisher :
ieee
ISSN :
2156-3950
Type :
jour
DOI :
10.1109/TCPMT.2011.2169260
Filename :
6119116
Link To Document :
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