Method and apparatus for reticulating an adhesive to the surface network of a cellular core structure

The invention claimed is: 1. A method for applying adhesive onto a surface network of a cellular core, comprising: obtaining an adhesive film having multiple sheets of adhesive, each with a different thickness; applying the adhesive film onto the surface network of the cellular core; selectively varying a bond strength across the cellular core by regulating the thickness of the adhesive film along a length of the cellular core, the cellular core comprising a plurality of hexagonal cells; varying the adhesive film thickness onto the surface network of the cellular core along the length of the cellular core, the thickness of the adhesive film having a greater thickness at a first end of the length of the cellular core than a thickness at a second opposing end of the length of the cellular core; perforating the adhesive film while on the surface network by removing a plurality of selected portions of the adhesive film so as to make a plurality holes in the adhesive film that are shaped complementary to the hexagonal cells, such that a location of each hole corresponds with an approximate center of each individual cell; perforating the adhesive film with a plurality of different sized perforations as the surface network of cellular core moves along a conveyor and as the thickness of the adhesive film changes from the first end of the length of the cellular core to the second end of the length of the cellular core; applying heat to the perforated adhesive film, such that the perforated adhesive film becomes viscous and retracts to the surface network of the cellular core; and cooling the perforated adhesive film after the perforated adhesive retracts to the surface network of the cellular core such that the perforated adhesive film becomes less viscous and remains in place; wherein the plurality of different sized perforations vary in diameter along the length of the cellular core. 2. The method according to claim 1 , wherein the perforating the adhesive film is achieved by a mechanical means. 3. The method according to claim 1 , wherein the perforating the adhesive film is achieved by a laser. 4. The method according to claim 1 , wherein the perforating the adhesive film is achieved by a vacuum. 5. The method according to claim 1 , wherein the cellular core has been carved. 6. The method according to claim 1 , wherein the cellular core has been coated. 7. The method according to claim 1 , wherein the cellular core has been treated. 8. The method according to claim 1 , wherein the cellular core has reticulated adhesive on an opposing surface network. 9. The method according to claim 1 , further comprising: placing a face sheet to an opposing surface network. 10. The method of claim 1 , wherein the plurality of holes comprise a hexagonal shape. 11. An adhesive film for a cellular core, comprising: an adhesive film formed from a plurality of adhesive sheets, each with a different thickness; a plurality of perforations in the adhesive film located to coincide with the approximate center of each individual hexagonal cell of the cellular core, wherein the perforations are shaped complementary to the associated hexagonal cells; varying the adhesive film thickness onto the surface network of the cellular core along a length of the cellular core, the thickness of the adhesive film having a greater thickness at a first end of the length of the cellular core than a thickness at a second opposing end of the length of the cellular core; and perforating the adhesive film with a plurality of different sized perforations as the surface network of cellular core moves along a conveyor and as the thickness of the adhesive film changes from the first end of the length of the cellular core to the second end of the length of the cellular core; varying adhesive film thickness by varying the size of the plurality of different sized perforations; wherein the plurality of different sized perforations vary in diameter along the length of the cellular core; and wherein each perforation is the result of a portion of the adhesive film being removed while the adhesive film is in contact with the cellular core, the cellular core being non-planar. 12. An adhesive film according to claim 11 , wherein the adhesive film is in a roll. 13. An adhesive film according to claim 11 , wherein the adhesive film has one or more protective layers. 14. The adhesive film of claim 11 , wherein the perforations comprise a hexagonal shape.