Methods and apparatus for elastic deactivation in a laminate

We claim: 1. In a system having a revolving compression blade and a revolving anvil cooperating to present a nip, a method comprising the step of: spacing a revolving compression blade apart from a revolving anvil during a closest passage between said compression blade and said revolving anvil, said closest passage greater than zero, said closest passage defining a nip gap between the compression blade and the anvil during respective revolutions, the nip gap adapted to receive a web material, wherein a sum of the distance between said compression blade axis and said compression blade distal end, and a distance between said anvil axis and said first anvil radius, is less than the distance between said anvil axis and said compression blade axis; changing said nip gap by at least one of the steps of advancing a sloped working anvil surface relative to said compression blade or advancing said compression blade relative to said sloped working anvil surface; receiving a composite web in the nip gap, the web comprising at least a middle layer disposed between a first layer that contacts the compression blade and a second layer that contacts the anvil; and completely severing the middle layer without severing the first layer and without severing the second layer. 2. An apparatus comprising: a compression blade for compressing webs of material without cutting, supported for revolution in a first direction about a compression blade axis, said compression blade comprising a distal end of said compression blade; an anvil supported for revolution in a second direction about an anvil axis, the anvil having a working anvil surface facing away from the anvil axis; said working anvil surface presenting a first, shorter anvil radius between said working anvil surface and said anvil axis at a first working anvil surface position, and a second, longer anvil radius between said working anvil surface and said anvil axis at a second working anvil surface position; wherein a sum of the distance between said compression blade axis and said compression blade distal end, and a distance between said anvil axis and said first anvil radius, is less than the distance between said anvil axis and said compression blade axis; a nip gap variable between a first nip gap spacing comprising a distance greater than zero, and a minimum distance between said compression blade distal end and said first working anvil surface position; and a second nip gap spacing, smaller than said first nip gap spacing, comprising a distance greater than zero, and a minimum distance between said compression blade distal end and said second working anvil surface position; wherein a sum of a distance between said compression blade axis and said compression blade distal end, and a distance between said anvil axis and said second anvil radius, is less than the distance between said anvil axis and said knife axis, wherein the nip gap is selectively variable by changing a relative rotational position of the compression blade with respect to the first and second working anvil surface positions. 3. An apparatus according to claim 2 , wherein the compression blade axis and anvil axis are at least substantially parallel to each other. 4. An apparatus according to claim 2 , the anvil surface comprising a working anvil surface length measured tangentially to the second direction, the working anvil surface length extending between a leading end and a trailing end. 5. An apparatus according to claim 4 , wherein the compression blade is closest to the anvil axis in the nip position. 6. An apparatus according to claim 5 , wherein the working anvil surface is sloped toward the anvil axis from the leading end toward the trailing end. 7. An apparatus according to claim 2 , the compression blade having a blade edge extending parallel to the knife axis. 8. An apparatus according to claim 7 , the blade edge comprising a cross-section perpendicular to the compression blade axis, the cross-section comprising a radius. 9. An apparatus according to claim 8 , the blade edge comprising a radius of about 0.25 mm to about 10 mm to form a rounded working surface. 10. An apparatus according to claim 9 , the blade edge comprising a radius of about 0.25 mm to about 6 mm. 11. An apparatus according to claim 2 , the first direction and second direction being opposite.