Surface effects on delamination of a thin film bonded to an elastic substrate.

Yang, Y.; Lee, K. Y.; Li, X.-F.

The delamination of a circular thin film at micro/nanoscale is studied using the Kirchhoff plate theory incorporating surface effects in this paper. Bending of a clamped circular nanoplate subjected to a concentrated force at the center or a uniformly distributed force over a lateral surface is solved. The bending deflection is derived in closed form. The adhesion energy and its release rate for delamination are determined when surface effects are taken into account. The influences of surface residual stress and surface elasticity along with the film’s size on the energy release rate of debonding advance or interfacial adhesion of a thin film bonded to an elastic substrate are analyzed for applied loading or given displacements. Analytic results are compared with experimental data and satisfactory agreement is confirmed.

DELAMINATION of composite materials; THIN films; DISPLACEMENT (Mechanics); DEBONDING; RESIDUAL stresses

International Journal of Fracture, 2018, Vol 210, Issue 1/2, p81

0376-9429

Academic Journal

10.1007/s10704-018-0262-2