The single most difficult aspect for thermo-mechanical analysis at the board level lies in to an accurate accounting for interactions among boards and small features such as solder joints and secondary components. It is the large number of small features populated in a close neighborhood that proliferates the computational intensity. This paper presents an approach to stress analysis for boards with highly populated small features (solder joints, for example). To this end, a generalized self-consistent method, utilizing an energy balance framework and a three-phase composite model, is developed to obtain the effective properties at board level. The stress distribution inside joints and components are obtained through a back substitution. The solutions presented are mostly in the closed-form and require a minimum computational effort. The results obtained by present approach are compared with those by finite element analysis. The numerical calculations show that the proposed micromechanics approach can provide reasonably accurate solutions for highly populated printed circuit boards.
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June 1996
Technical Papers
Stress Analysis of Printed Circuit Boards With Highly Populated Solder Joints and Components: A Micromechanics Approach
K. X. Hu,
K. X. Hu
Applied Simulation and Modeling Research, Motorola, Inc., 1301 E Algonguin Road, Annex 2, Schaumburg, IL
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Y. Huang,
Y. Huang
Department of Mechanical Engineering and Engineering Mechanics, Michigan Technological University, Houghton, MI
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C. P. Yeh,
C. P. Yeh
Applied Simulation and Modeling Research, Motorola, Inc., 1301 E Algonguin Road, Annex 2, Schaumburg, IL
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K. W. Wyatt
K. W. Wyatt
Applied Simulation and Modeling Research, Motorola, Inc., 1301 E Algonguin Road, Annex 2, Schaumburg, IL
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K. X. Hu
Applied Simulation and Modeling Research, Motorola, Inc., 1301 E Algonguin Road, Annex 2, Schaumburg, IL
Y. Huang
Department of Mechanical Engineering and Engineering Mechanics, Michigan Technological University, Houghton, MI
C. P. Yeh
Applied Simulation and Modeling Research, Motorola, Inc., 1301 E Algonguin Road, Annex 2, Schaumburg, IL
K. W. Wyatt
Applied Simulation and Modeling Research, Motorola, Inc., 1301 E Algonguin Road, Annex 2, Schaumburg, IL
J. Electron. Packag. Jun 1996, 118(2): 87-93 (7 pages)
Published Online: June 1, 1996
Article history
Received:
August 20, 1995
Revised:
January 10, 1996
Online:
November 6, 2007
Citation
Hu, K. X., Huang, Y., Yeh, C. P., and Wyatt, K. W. (June 1, 1996). "Stress Analysis of Printed Circuit Boards With Highly Populated Solder Joints and Components: A Micromechanics Approach." ASME. J. Electron. Packag. June 1996; 118(2): 87–93. https://doi.org/10.1115/1.2792137
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