Title of article :
Integrated numerical–experimental analysis of interfacial fatigue fracture in SnAgCu solder joints
Author/Authors :
M. Erinc، نويسنده , , P.J.G. Schreurs ، نويسنده , , M.G.D. Geers، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2007
Pages :
15
From page :
5680
To page :
5694
Abstract :
In ball grid array (BGA) packages, solder balls are exposed to cyclic thermo-mechanical strains arising from the thermal mismatch between package components. Thermo-mechanical fatigue crack propagation in solder balls is almost always observed at the chip side of the bump/pad junction. The objective of the experimental part of this study is to characterize the bump/pad interface under fatigue loading. Fatigue specimens are prepared by reflowing Sn3.8Ag0.5Cu lead-free solder alloy on Ni/Au substrates. Obtained results show that fatigue damage evolution strongly depends on the microstructure. Applied strain and solder volume both have an influence on the fatigue damage mechanism. In the numerical part of the study, fatigue experiments are modeled using the finite element technique. A cohesive zone approach is used to predict the fatigue damage evolution in soldered connections. Crack propagation is simulated by an irreversible linear traction–separation cohesive zone law accompanied by a non-linear damage parameter. Cohesive zone elements are placed where failure is experimentally observed. Damage evolution parameters for normal and tangential interaction are scrutinized through dedicated fatigue tests in pure tensile and shear directions. The proposed cohesive zone model is quantitatively capable of describing fatigue failure in soldered joints, which can be further extended to a numerical life-time prediction tool in microelectronic packages. 2007 Elsevier Ltd. All rights reserved
Keywords :
low-cycle fatigue , lead-free solder , Cohesive zone modeling
Journal title :
International Journal of Solids and Structures
Serial Year :
2007
Journal title :
International Journal of Solids and Structures
Record number :
449348
Link To Document :
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