3D study of thermal stresses in lead-free surface mount devices
TLDR
In this article, the authors present the study of non-uniform temperature distributions in a flip chip electronic assembly, and the use of these temperature distributions to analyse the thermal stresses in lead-free solder joints in surface mount devices.Abstract:
The paper presents the study of non-uniform temperature distributions in a flip chip electronic assembly, and the use of these temperature distributions to analyse the thermal stresses in lead-free solder joints in surface mount devices. The thermal stresses in the solder joints are mainly due to the mismatch in the coefficients of thermal expansions between the component and substrate materials, and temperature gradient in the electronic assembly. The thermo-elasto-visco-plastic finite element analysis is carried out to investigate the extent of thermal stresses induced in solder joints between a surface mount component and a FR4 circuit board (substrate) under conditions of thermal cycling with the chip resistor operating at its full power condition. Three different cases of spatial temperature distributions are considered including one with an experimentally obtained non-uniform temperature distribution. A comparative study of thermal stresses is performed using a near-eutectic SnAgCu solder material f...read more
Citations
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Proceedings ArticleDOI
Thermal-Structural Analysis of Engine Exhaust-Washed Structures
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Dissertation
Solder interconnect life prediction under complex temperature cycling with varing mean and amplitude
TL;DR: Chai et al. as mentioned in this paper developed three modeling approaches and quantified accuracies for predicting solder interconnect life under complex temperature cycling, and then applied Miner's rule to superpose the damage.
References
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R. Darveaux,Kingshuk Banerji +1 more
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Proceedings ArticleDOI
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Thermal Stress and Strain in Microelectronics Packaging
John H. Lau,Peter A. Engel +1 more
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Thermal cycling analysis of flip-chip solder joint reliability
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