Resilient deformable air valve

What is claimed is: 1 . An air valve for an air-cooled enclosure for an apparatus that generates heat and electromagnetic radiation, the enclosure having a plurality of walls, comprising: a panel to serve as at least a portion of one wall of the enclosure, the panel having at least one substantially circular first aperture, the first aperture having a first radius; first and second sheets on the panel, the first sheet overlying the second sheet, the first and second sheets each being deformable and resilient, and each having a conductive film on one surface; the first sheet having a second aperture, the second aperture being defined by a plurality of first leaves extending inwardly a first distance from a substantially circular first perimeter, the first perimeter having a second radius substantially equal to the first radius, the first distance being less than the second radius; the second sheet having a third aperture, the third aperture being defined by a plurality of second leaves extending inwardly by the second distance from a substantially circular second perimeter, the second perimeter having a third radius substantially equal to the second radius, the second distance being less than the second radius; wherein the first leaves and second leaves lie in a plane parallel to the panel and the second and third apertures have a first diameter and a first depth in an undeformed state; and wherein the first leaves and second leaves deform in response to air flow, flexing out of the plane, the second and third apertures having a second diameter and a second depth in a deformed state, the second diameter being greater than the first diameter and the second depth being greater than the first depth; and wherein the first leaves are circumferentially offset from the second leaves. 2 . The air valve of claim 1 , wherein the second depth is approximately fifty percent of the second diameter of the second aperture. 3 . The air valve of claim 1 , wherein the first diameter is approximately one percent of the second radius of the perimeter. 4 . The air valve of claim 1 , wherein the first diameter is approximately ten percent of the second radius of the perimeter. 5 . The air valve of claim 1 , wherein the second diameter of the second aperture is approximately sixty percent of the second radius of the perimeter. 6 . The air valve of claim 1 , wherein each of the first and second leaves includes a base end at the perimeter and an opposite, inner end, wherein the inner end of each of the first and second leaves is axially deformable. 7 . The air valve of claim 1 , wherein each of the first and second leaves includes a base end at the perimeter and an opposite, inner end, wherein the inner end of each of the first and second leaves is narrower than the base end, and wherein the plurality of leaves define a corresponding plurality of openings between the leaves, the openings increasing in width with distance from the perimeter when in the un-deformed state. 8 . The air valve of claim 1 , wherein the first and second sheets are biaxially-oriented polyethylene terephthalate. 9 . The air valve of claim 1 , wherein the first and second sheets are approximately 0.2 millimeter thick biaxially-oriented polyethylene with the conductive film on one side to reduce an electromagnetic field generated by the apparatus. 10 . The air valve of claim 1 , wherein the conductive film is aluminum. 11 . The air valve of claim 1 , wherein the conductive film is nickel. 12 . The air valve of claim 1 , wherein the panel has two or more substantially circular first apertures, and wherein the first and second sheets overlie to form a corresponding aperture for each of the two or more substantially circular first apertures in the panel, and wherein one or more first apertures in the panel are a first size and one or more first apertures are a second size. 13 . The air valve of claim 1 , wherein the first depth of the second aperture and the third aperture in the un-deformed state is less than the combined thickness of the panel and the first and second sheets. 14 . The air valve of claim 1 , wherein each of the first and second leaves is curved, having a concave side edge and an opposite convex side edge extending inwardly from the base end at the perimeter towards the center point of the first aperture, the concave side edge and convex side edge of each leaf meeting at a rounded point to create the opposite, inner end. 15 . An air valve for an air-cooled enclosure for an apparatus that generates heat and electromagnetic radiation, the enclosure having a plurality of walls, comprising: a panel to serve as at least a portion of one wall of the enclosure, the panel having at least one substantially circular first aperture, the first aperture having a first radius; a first sheet and a second sheet adhesively attached on the panel, the first and second sheets being deformable and resilient, and having a conductive film on one surface; the first and second sheets overlying to form a second aperture, the second aperture being defined by a plurality of first leaves associated with the first sheet and second leaves associated with the second sheet extending inwardly a particular distance from a substantially circular perimeter, the perimeter having a second radius substantially equal to the first radius, the particular distance being less than the second radius; wherein each of the plurality of first and second leaves includes a base end at the perimeter and an opposite, inner end, and sides of adjacent first and second leaves abut each other at the base end at the perimeter; wherein the first and second leaves are curved, having a concave side edge and an opposite convex side edge extending inwardly from the base end at the perimeter towards the center point of the first aperture, the concave side edge and convex side edge meeting at a rounded point to create the opposite inner end; wherein the first and second leaves lie in a plane parallel to the panel and the second aperture has a first diameter and a first depth in an un-deformed state; wherein the first and second leaves deform in response to air flow, transitioning to a deformed state, flexing out of the plane, the second aperture having a second diameter and a second depth in the deformed state, the second diameter being greater than the first diameter and the second depth being greater than the first depth; wherein the second leaves cover gaps generated in between the first leaves when in the deformed state; and wherein the first and second leaves transition to the un-deformed state in response to an absence of air flow.