Title of article
A thermodynamics based damage mechanics constitutive model for low cycle fatigue analysis of microelectronics solder joints incorporating size effects
Author/Authors
Juan Gomez-Prado، نويسنده , , Cemal Basaran and Rumpa Chandaroy، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
29
From page
3744
To page
3772
Abstract
Below certain length scales and in the presence of a non-uniform plastic strain field the mechanical behavior of many
metals and its alloys is substantially different from that in bulk specimens. In particular, an increase in resistance with
decreasing size has been observed in Pb/Sn eutectic solder alloys which are extensively used in microelectronics packaging
interconnects. Due to the high homologous temperature, the Pb/Sn solder exhibits creep–fatigue interaction and
significant time, temperature, stress and rate dependent material characteristics. The simultaneous consideration of all
the above mentioned factors makes constitutive modeling an extremely difficult task. In this paper, a viscoplastic constitutive
model unified with a thermodynamics based damage evolution model is embedded into a couple stress framework
in order to simulate low cycle fatigue response coupled to size effects. The model is implemented into commercial
finite element code ABAQUS. The microbending experiment on thin nickel foils is used to validate the model. Analyses
are performed on a thin layer solder joint in bending under cyclic loading conditions.
Keywords
Damage mechanics , Strain gradient plasticity , Solderjoints , Finite element analysis , low cycle fatigue , constitutive modeling
Journal title
International Journal of Solids and Structures
Serial Year
2005
Journal title
International Journal of Solids and Structures
Record number
448282
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