Abstract: We address homogenization problems for variational inequalities issue from unilateral con-straints for the p-Laplacian posed in perforated domains of Rn, with n � 3 and p 2 [2; n]. " is a small parameter which measures the periodicity of the structure while a" � " measures the size of the perforations. We impose constraints for solutions and their
uxes (associated with the p-Laplacian) on the boundary of the perforations. These constraints imply that the solution is positive and that the ux is bounded from above by a negative, nonlinear monotonic function of the solution multiplied by a parameter �" which may be very large, namely, �" ! 1 as " ! 0. We �rst consider the case where p < n and the domains periodically perforated by tiny balls and we obtain homogenized problems depending on the relations between the di�erent parameters of the problem: p, n, ", a" and �". Critical relations for parameters are obtained which mark important changes in the behavior of the solutions.
Correctors which provide improved convergence are also computed. Then, we extend the results for p = n and the case of non periodically distributed isoperimetric perforations. We make it clear that the averaged constants of the problem, the perimeter of the perforations appears for any shape.
