Multi-slit tension-activated, expanding sheets

What is claimed is: 1. An expanding material having a pretensioned state defining a pretensioned plane, comprising: a material including a plurality of slits that form a multi-slit pattern wherein the plurality of slits are arranged in rows, wherein the material defines a tension axis; wherein each slit includes two parallel axial portions that each have first axial endpoints terminating at opposite ends of a transverse portion, wherein each axial portion also has a second axial endpoint that terminates at an imaginary line; wherein slits in a first row are inverse to slits in an adjacent second row such that the second axial endpoint of each axial portion in both rows terminates at a different point along the imaginary line that runs between the two rows and is parallel to the transverse portion of each slit in both rows; and wherein the material is substantially in a plane in the pretensioned state but wherein the multi-slit pattern enables at least portions of the material to rotate 45 degrees or greater from the plane of the pretensioned state when tension is applied along the tension axis. 2. The expanding material of claim 1 , wherein an imaginary straight line connects the first and second terminal ends of each of the slits in the plurality of the slits in a row and wherein the imaginary straight lines relating to a row of slits are all colinear with one another but not with a region of each of the slits between the terminal ends. 3. The expanding material of claim 1 , wherein the material is non-extensible and includes at least one of paper, polyester, and acrylic. 4. The expanding material of claim 1 , wherein the plurality of slits are arranged in a plurality of rows of slits and slits in a first row of slits are offset from slits in an adjacent row of slits by 75% or less of the transverse length of each slit in the first row of slits. 5. The expanding material of claim 1 , wherein each of the slits have a slit shape and wherein the slit shape varies within a row of slits. 6. The expanding material of claim 1 , wherein each of the slits have a slit shape and wherein the slit shape varies in adjacent rows. 7. The expanding material of claim 1 , wherein the material has a thickness between about 0.001 inch (0.025 mm) and about 5 inches (127 mm). 8. The expanding material of claim 1 , wherein each slit in the plurality of slits has a slit length, and wherein slits in a first group of slits in the plurality of slits have a slit length that differs from the slit length of slits in a second group of slits in the plurality of slits. 9. The expanding material of claim 1 , wherein the material is substantially planar in a pretensioned form but wherein the multi-slit pattern enables at least portions of the material to rotate 90 degrees or greater from the plane of the pretensioned form when tension is applied along the tension axis. 10. The expanding material of claim 1 , wherein the material is configured to remain rotated at least 45 degrees once the tension is no longer applied. 11. A die capable of forming the multi-slit pattern of claim 1 . 12. A packaging material comprising the expanding material of claim 1 . 13. The packaging material of claim 12 , wherein the expanding material is in a roll configuration. 14. The packaging material of claim 12 , wherein the expanding material is one or more individual sheets. 15. The packaging material of claim 14 , further comprising an envelope having the expanding material disposed in the envelope. 16. A method of making the expanding material of claim 1 , comprising: forming the multi-slit pattern in the material by at least one of by extrusion, molding, laser cutting, water jetting, machining, stereolithography, laser ablation, photolithography, chemical etching, rotary die cutting, stamping or combinations thereof. 17. A method of using the expanding material of claim 1 , comprising: applying tension to the expanding material along a tension axis to cause the material to expand. 18. The method of claim 17 , wherein, when exposed to tension along the tension axis, at least one of (1) the terminal ends of the slits in the expanding material are drawn toward one another, causing a beam of the expanding material to undulate upward relative to the plane of the material in its pretensioned state and (2) portions of beams of the expanding material to undulate downward relative to the plane of the material in its pretensioned state forming an opening portion. 19. The method of claim 17 , further comprising: wrapping the expanded material around an item. 20. The method of claim 19 , wherein the expanded material defines one or more of flaps, openings, and interlocking features and the expanded material is wrapped around the item to form at least two full layers such that at least one of the flaps, loops, openings, and interlocking features on the first layer interlock with at least one of the flaps, loops, openings, and interlocking features on the second layer.