Title :
Constitutive model and numerical analysis for high lead solders
Author :
Wang, Fan ; Keer, Leon M. ; Vaynman, Semyon ; Wen, Shengmin
Author_Institution :
Dept. of Mech. Eng., Northwestern Univ., Evanston, IL, USA
Abstract :
High lead solder interconnects are extensively used in the electronic industry. This paper uses a unified creep plasticity (UCP) constitutive model to numerically simulate the mechanical performance of such interconnects under thermomechanical cyclic loading. The UCP model is capable of incorporating thermal and cyclic hardening effects. To make the model more objective, cyclic loading induced damage was also incorporated. The model is programmed into the commercially available finite element modeling software ABAQUS. A uniaxial tension case was analyzed to verify the model and reasonable agreement with experimental results was achieved. A typical three-dimensioned solder bump under shear deformation loading was analyzed and the strain/stress distribution within the solder bump was obtained.
Keywords :
integrated circuit interconnections; integrated circuit packaging; shear deformation; soldering; stress analysis; ABAQUS; Pb; constitutive modeling; cyclic hardening effects; cyclic loading induced damage; electronic industry; finite element modeling software; high lead solder interconnects; numerical analysis; shear deformation loading; solder bump; strain distribution; stress distribution; thermomechanical cyclic loading; uniaxial tension; unified creep plasticity; Capacitive sensors; Creep; Electronics industry; Finite element methods; Lead; Load modeling; Numerical analysis; Numerical models; Numerical simulation; Thermomechanical processes; 65; ABAQUS; constitutive modeling; creep; damage; high lead solder; inelasticity; plasticity;
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/TCAPT.2004.838865
