Title :
Microstructure-Based Stress Modeling of Tin Whisker Growth
Author :
Zhao, Jie-Hua ; Su, Peng ; Ding, Min ; Chopin, Sheila ; Ho, Paul S.
Author_Institution :
Freescale Semicond. Inc, Austin, TX
Abstract :
A 3-D finite element method (FEM) model considering the elasticity anisotropy, thermal expansion anisotropy, and plasticity of beta-Sn is established. The Voronoi diagrams are used to generate the geometric patterns of grains of the Sn coating on Cu leadframes. The crystal orientations are assigned to the Sn grains in the model using the X-ray diffraction (XRD) measurement data of the samples. The model is applied to the Sn-plated package leads under thermal cycling tests. The strain energy density (SED) is calculated for each grain. It is observed that the samples with higher calculated SED are more likely to have longer Sn whiskers and higher whisker density. The FEM model, combined with the XRD measurement of the Sn finish, can be used as an effective indicator of the Sn whisker propensity. This may expedite the qualification process significantly
Keywords :
X-ray diffraction; computational geometry; copper; crystal microstructure; crystal orientation; elasticity; electronics packaging; finite element analysis; life testing; metallisation; plasticity; thermal expansion; tin; whiskers (crystal); 3D finite element method; Cu; Voronoi diagrams; XRD; crystal orientations; elasticity anisotropy; lead-free package; plasticity property; qualification process; strain energy density; stress modeling; thermal cycling tests; thermal expansion anisotropy; tin whisker growth; whisker density; whisker length; whisker propensity; x-ray diffraction; Anisotropic magnetoresistance; Coatings; Crystal microstructure; Elasticity; Finite element methods; Thermal expansion; Thermal stresses; Tin; X-ray diffraction; X-ray scattering; Finite element method (FEM); Pb-free; Sn whisker; Voronoi diagram; X-ray diffraction (XRD); lead-free; package; strain energy density; stress; tin whisker;
Journal_Title :
Electronics Packaging Manufacturing, IEEE Transactions on
DOI :
10.1109/TEPM.2006.887393
