Title :
Interfacial shear stress, peeling stress, and die cracking stress in trilayer electronic assemblies
Author :
Wang, Kang Ping ; Huang, Yonggang Young ; Chandra, Abhijit ; Hu, Kai Xiong
Author_Institution :
Gen. Motors Res. Labs., Warren, MI, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
Interfacial shear stress, peeling stress, and die cracking stress due to thermal and elastic mismatch in layered electronic assemblies are one of the major causes of the mechanical failure of electronic packages. A simple but rather accurate method is developed to estimate these thermal stresses for packages with different layer lengths. For layered electronics with thin adhesives, analytical expressions are obtained for interfacial shear stress and peeling stress, and they agree well with the finite element analysis, especially when the moduli of adhesive layers are significantly lower than the moduli of the other layers. An analytic expression of die cracking stress is also obtained for multilayer electronic assemblies
Keywords :
adhesion; finite element analysis; microassembling; surface mount technology; thermal stress cracking; die cracking stress; elastic mismatch; finite element analysis; interfacial shear stress; layer lengths; mechanical failure; peeling stress; thermal mismatch; thermal stresses; thin adhesives; trilayer electronic assemblies; Assembly; Bonding forces; Capacitive sensors; Electronic packaging thermal management; Finite element methods; Nonhomogeneous media; Surface cracks; Thermal expansion; Thermal force; Thermal stresses;
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/6144.846769
