Hanbin Yin scite author profile

Different from the system of a single-layer elastic film on a rigid substrate, it is difficult to determine which interface will debond in a bilayer or multilayer film-substrate system. A peeling model of a bilayer elastic film on a rigid substrate is established in the present paper, in order to predict which interface debonding occurs first. The interfacial competitive debonding mechanism is theoretically analyzed with the help of the beam bending theory. A criterion of which interface debonding occurs first is proposed. It is found that the interfacial debonding path is mainly controlled by five dimensionless parameters, i.e., the strength ratio and the critical separation distance ratio of the upper and lower interfaces, the Young's modulus ratio and the thickness ratio of the upper and lower films, and the possible initial cantilever length for ease of loading. The corresponding competitive debonding map is well obtained. From the map, which interface debonds first can be easily predicted. It is interesting to find that the interfacial debonding path can be well tuned by any one of the five parameters. The results of the finite element calculation further confirm the theoretical predictions. The present work can not only provide a theoretical method to determine the interfacial debonding path but also be helpful for the optimal design of multilayer film-substrate systems in practical applications.

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Fracture patterns formed by tearing adhesive thin films from curved surfaces

Wei

Yin

et al. 2023

International Journal of Solids and Structures

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Hanbin Yin

Effect of thin-film length on the peeling behavior of film-substrate interfaces

Determination of the interface properties in an elastic film/substrate system

A general solution to the maximum detachment force in thin film peeling

Interfacial Competitive Debonding of a Bilayer Elastic Film on a Rigid Substrate

Fracture patterns formed by tearing adhesive thin films from curved surfaces

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