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Adhesive behavior between dissimilar materials subjected to thermo-elastic loadings with normal-tangential coupling effect.

Authors :
Luo, Qing-Hui
Zhou, Yue-Ting
Guler, Mehmet Ali.
Source :
Applied Mathematical Modelling. Mar2023, Vol. 115, p360-384. 25p.
Publication Year :
2023

Abstract

• The effect of temperature on non-slipping adhesive contact behavior is investigated. • The full analytical solutions of the anisothermal oscillatory stress fields are derived. • Both the temperature and inclined angle of the external force have significant influences on adhesion behaviors. • The non-oscillatory solutions can not always serve as a good approximation for the oscillatory solutions. The temperature difference always exists between contacting objects in various thermal bonding technologies, where the adhesion strength is found to be very sensitive to the temperature. In this paper, the anisothermal adhesive contact between an elastic cylinder subjected to the external force with an inclined angle and an elastic substrate is investigated based on the non-slipping JKR model, where the coupling effect between the normal and tangential tractions within the contact region is taken into consideration. The stated problem is reduced to a system of coupled singular integral equations, which can be solved with the analytical function theory. The full analytical solutions of the oscillatory stress fields are obtained for the first time by taking the series expansion of the integrand induced by the thermoelastic effect, which is of substantial significance. The relationship between the contact size and the external loadings is established by virtue of the Griffith energy balance criterion. The difference between the oscillatory and non-oscillatory solutions of stress fields is discussed in detail. Numerical results demonstrate that the oscillatory solution cannot be well approximated by the corresponding non-oscillatory solution for the cases of large Dundurs' index and external compressive force. Furthermore, it is found that both the thermoelastic effect and the inclined angle of the applied force have significant influences on the adhesive contact behaviors. The presence of temperature difference between contacting objects can either enhance or weaken the adhesion effect, which is related to the inclined angle of the external force. The results obtained from this paper may provide a new insight into the influence mechanism of the temperature on adhesion behaviors. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0307904X
Volume :
115
Database :
Academic Search Index
Journal :
Applied Mathematical Modelling
Publication Type :
Academic Journal
Accession number :
161120757
Full Text :
https://doi.org/10.1016/j.apm.2022.10.030