Thermally induced interfacial stresses in elongated bimaterial plates
- AT and T Bell Labs., Murray Hill, NJ (USA)
The interfacial thermally induced shearing and peeling stresses in elongated bimaterial plates are determined on the basis of an elementary beam (long-and-narrow plate) theory. The utilized approach enables one to satisfy the stress-free boundary conditions at the short edges within the framework of an elementary analytical model. The obtained formulas are simple, easy-to-use, and clearly indicate how material and geometric characteristics affect the magnitude and the distribution of stresses. The suggested approach is applicable, generally speaking, to any elongated bimaterial or adhesively bonded structure, subjected to thermal or external loading. As an example of an external loading, the authors examine bending of a bimaterial plate on a circular mandrel. Such a test vehicle is being currently regarded by many reliability engineers in the microelectronics industry as an attractive means to evaluate attachment materials in adhesively bonded and soldered assemblies.
- OSTI ID:
- 5408485
- Report Number(s):
- CONF-8901202--
- Journal Information:
- Applied Mechanics Reviews; (United States), Journal Name: Applied Mechanics Reviews; (United States) Vol. 42:11; ISSN AMREA; ISSN 0003-6900
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
360103* -- Metals & Alloys-- Mechanical Properties
360203 -- Ceramics
Cermets
& Refractories-- Mechanical Properties
360603 -- Materials-- Properties
BONDING
COMPOSITE MATERIALS
FABRICATION
JOINING
JOINTS
MATERIALS
MATHEMATICAL MODELS
MICROELECTRONICS
PLATES
SHEAR
SOLDERED JOINTS
STRESSES
STRUCTURAL BEAMS
THERMAL STRESSES