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Interfacial shear and peeling stresses in a two-plate structure subjected to monotanically increasing thermal loading

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
An approximate analytical model is developed for the evaluation of the interfacial shear and peeling stresses in a bi-material element composed of two elastic plates bonded together by an interface zero thickness material and subjected to monotonically increasing thermal loading. Thermal peeling stress is caused by thermal and elastic mismatch of a two-plate structure undergo a temperature change. The “peeling” stress can be determined from the evaluated interfacial shear stress and is proportional to deflections of the thinner plate of the structure, i.e. to its displacements with respect to the thicker plate. The interface is assumed to exhibit brittle failure at the critical shear stress value. The analytical solution qualitatively shows delamination and ultimate failure. The results are illustrated in figures and discussed.
Rocznik
Strony
937--947
Opis fizyczny
Bibliogr. 14 poz., rys., tab.
Twórcy
autor
  • Institute of Mechanics, Bulgarian Academy of Sciences, Sofia, Bulgaria
autor
  • Institute of Mechanics, Bulgarian Academy of Sciences, Sofia, Bulgaria
Bibliografia
  • 1. Białas M., Mróz Z., 2006, Crack patterns in thin layers under temperature loading. Part I: Monotonic loading, Engineering Fracture Mechanics, 73, 917-938
  • 2. Bleeck O., Munz D., Schaller W., Yang Y.Y., 1998, Effect of a graded interlayer on the stress intensity factor of cracks in a joint under thermal loading, Engineering Fracture Mechanics, 60, 615-623
  • 3. Mróz Z., Białas M., 2006, A simplified analysis of interface failure under compressive normal stress and monotonic or cyclic shear loading, International Journal of Numerical and Analytical Methods of Geomechanics, 29, 337-368
  • 4. Nikolova G., 2008, Thermomechanical behaviour of thin multilayered structures, Ph.D. Thesis, Institute of Mechanics – BAS, Sofia, Bulgaria
  • 5. Nikolova G., Ivanova J., Mroz Z., 2006, Modelling of thermally induced progressive delamination in a two-plate structure, Journal of Theoretical and Applied Mechanics, Bulgaria, 36, 4, 71-92
  • 6. Rizk A.A., Erdogan F., 1989, Cracking of coated materials under transient thermal stresses, Journal of Thermal Stresses, 12, 125-168
  • 7. Sorensen B.F., Jorgensen S.O., Horsewell A., 1998, Thermally induced delamination of multilayer, Acta Matterial, 46, 2603-2615
  • 8. Suhir E., 1986, Calculated thermally induced stresses in adhesively bonded and soldered assemblies, Proceedings of the International Symposium on Microelectronics, ISHM, Atlanta, Georgia
  • 9. Suhir E., 1986, Stresses in bi-metal thermostats, ASME Journal of Applied Mechanics, 53, 3
  • 10. Suhir E., 1987, Die attachment design and its influence on the thermally induced stresses in the die and the attachment, Proceedings of the 37th Elect. Comp. Conference, IEEE, Boston, Mass.
  • 11. Suhir E., 1989, Interfacial stresses in bi-metal thermostats, ASME Journal of Applied Mechanics, 56, 3
  • 12. Suhir E., 2001, Analysis of interfacial thermal stresses in a tri-material assembly, Journal of Applied Physics, 89, 7
  • 13. Suhir E., 2006, Interfacial thermal stresses in a bi-material assembly with a low-yield-stress bonding layer, Journal of Physics D: Modeling and Simulation in Materials Science and Engineering, 14, 1421-1432
  • 14. Zhang, S., 2000, Thermal stress intensities at an interface crack between two elastic layers, International Journal of Fracture, 106, 3, 277-290
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ccff529f-d5cb-4330-a551-76b72fa6165d
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