Corrugated edge nip

What is claimed is: 1. A web tensioner, comprising: an apparatus for applying a tension in a tensioning plane having a center portion, a first edge portion, a second edge portion opposite the first edge portion, and a tensioning direction perpendicular to both the first edge portion and the second edge portion, comprising: a first nip wheel having a first axis, having a first corrugated surface adjacent the first edge portion on a first surface of the tensioning plane, the first corrugated surface having a first period along the first axis; and a second nip wheel having a second axis parallel to the first axis, having a second corrugated surface adjacent the first edge portion on a second surface of the tensioning plane opposite the first surface, the second corrugated surface having a second period along the second axis which is displaced along the second axis, relative to the first period along the first axis, by a period offset, wherein the first corrugated surface and the second corrugated surface partially intermesh, and the period offset can be used to adjust the tension in the tensioning direction. 2. The web tensioner of claim 1 , wherein each of the first axis and second axis is parallel to the tensioning direction. 3. The web tensioner of claim 2 , wherein at least one of the first nip wheel and the second nip wheel are driven to rotate around the first axis and the second axis, respectively. 4. The web tensioner of claim 1 , wherein the first corrugated surface and the second corrugated surface each comprise a variation in a radius of the first and second nip wheel, respectively, in the tensioning direction. 5. The web tensioner of claim 1 , wherein the first nip wheel has a first maximum outer radius, the second nip wheel has a second maximum outer radius, and at least one of the first maximum outer radius and the second maximum outer radius extends through the tensioning plane. 6. The web tensioner of claim 1 , wherein the first corrugated surface and the second corrugated surface each comprise sinusoidal-shaped corrugations, vee-shaped corrugations, trapezoidal-shaped corrugations, or a combination thereof. 7. The web tensioner of claim 1 , wherein each of the first corrugated surface and the second corrugated surface have an equivalent period of corrugation. 8. The web tensioner of claim 1 , further comprising: a third nip wheel having a third corrugated surface adjacent the second edge portion on a first surface of the tensioning plane; and a fourth nip wheel having a fourth corrugated surface adjacent the second edge portion on a second surface of the cutting plane opposite the first surface, wherein the third corrugated surface and the fourth corrugated surface at least partially intermesh. 9. The web tensioner of claim 8 , wherein the third nip roll has a third axis and the fourth nip roll has a fourth axis, and each of the third axis and fourth axis is parallel to the tensioning direction. 10. The web tensioner of claim 9 , wherein at least one of the third nip roll and the fourth nip roll are driven to rotate around the third axis and the fourth axis, respectively. 11. The web tensioner of claim 8 , wherein the third corrugated surface and the fourth corrugated surface each comprise a variation in a radius of the third and fourth nip wheel, respectively, in the tensioning direction. 12. The web tensioner of claim 8 , wherein the third nip wheel has a third maximum outer radius, the fourth nip wheel has a fourth maximum outer radius, and at least one of the third maximum outer radius and the fourth maximum outer radius extends through the tensioning plane. 13. The web tensioner of claim 8 , wherein the third corrugated surface and the fourth corrugated surface each comprise sinusoidal-shaped corrugations, vee-shaped corrugations, trapezoidal-shaped corrugations, or a combination thereof. 14. The web tensioner of claim 8 , wherein each of the third corrugated surface and the fourth corrugated surface have an equivalent period of corrugation. 15. The web tensioner of claim 1 , wherein the tensioning plane comprises a web. 16. A method of applying lateral tension to a web, comprising: suspending a web moving in a downweb direction, the web having a center portion, a first edge portion, and a second edge portion opposite the first edge portion; positioning a first corrugated surface of a first nip wheel adjacent the first edge portion on a first surface of the web, the first nip wheel having a first axis and the first corrugated surface having a first period along the first axis; positioning a second corrugated surface of a second nip wheel adjacent the first edge portion on a second surface of the web, the second nip wheel having a second axis parallel to the first axis and the second corrugated surface having a second period along the second axis which is displaced along the second axis, relative to the first period along the first axis, by a period offset; positioning a third corrugated surface of a third nip wheel adjacent the second edge portion on the first surface of the web, the third nip wheel having a third axis; positioning a fourth corrugated surface of a fourth nip wheel adjacent the second edge portion on the second surface of the web, the fourth nip wheel having a fourth axis parallel to the third axis; driving at least one of the first nip wheel to rotate about the first axis and the second nip wheel to rotate about the second axis; driving at least one of the third nip wheel to rotate about the third axis and the fourth nip wheel to rotate about the fourth axis; partially intermeshing the first corrugated surface with the second corrugated surface and the third corrugated surface with the fourth corrugated surface, thereby applying a lateral tension to the center portion of the web; and adjusting the period offset to adjust the lateral tension.