Body armor utilizing superelastic spacer fabric, superelastic 3D knits and weaves and/or other superelastic 3D constructs so as to reduce behind armor blunt trauma (BABT)

What is claimed is: 1. A body armor comprising: a projectile-resistant outer layer; and an energy-absorbing inner layer, wherein the energy-absorbing inner layer comprises a superelastic three dimensional construct including a plurality of superelastic fibers that define a first face and a second face of the energy-absorbing inner layer, wherein at least one of the first face and the second face of the energy-absorbing inner layer are superelastic, and voids, which are defined between the plurality of superelastic fibers, wherein the voids are empty spaces, wherein the body armor does not comprise foam. 2. The body armor according to claim 1 wherein the projectile-resistant outer layer comprises ceramic plate. 3. The body armor according to claim 1 wherein the projectile-resistant outer layer comprises a para-aramid synthetic fiber. 4. The body armor according to claim 1 wherein the plurality of superelastic fibers comprise a shape memory alloy. 5. The body armor according to claim 4 wherein the shape memory alloy comprises Nitinol. 6. The body armor according to claim 1 wherein the superelastic fibers comprises a superelastic polymer. 7. The body armor according to claim 1 wherein the plurality of superelastic fibers are combined with at least one selected from the group consisting of aramid fibers, ultra high molecular weight polyethylene (UHWMPE), non-superelastic alloys, carbon fibers, polyester, and a nylon. 8. The body armor according to claim 1 wherein the plurality of superelastic fibers comprise at least one of a knit, a weave and an unordered mass. 9. The body armor according to claim 8 wherein the superelastic three dimensional construct comprises superelastic spacer fabric. 10. The body armor according to claim 8 wherein the superelastic three dimensional construct comprises a 3D weave. 11. The body armor according to claim 10 wherein the 3D weave comprises Warp, Fill, and Z-Filler fibers made of a superelastic material. 12. The body armor according to claim 11 wherein the 3D weave comprises an “angle interlock” or an “orthogonal interlock” binding, whereby to provide a plurality of structure options. 13. The body armor according to claim 12 wherein the structure options comprise angle interlock through the thickness (A/T); angle interlock layer to layer (A/L); orthogonal interlock through the thickness (O/T); and orthogonal interlock layer to layer (O/L). 14. The body armor according to claim 1 , wherein the first face and the second face of the energy-absorbing inner layer are outer surfaces of the energy-absorbing inner layer. 15. The body armor according to claim 1 wherein each of the plurality of superelastic fibers is a Nitinol wire. 16. The body armor according to claim 1 wherein both the first face and the second face of the energy-absorbing inner layer are superelastic. 17. The body armor according to claim 1 wherein the first face is an outermost layer of the energy-absorbing inner layer and the second face is an innermost layer of the energy-absorbing inner layer. 18. The body armor according to claim 1 wherein the plurality of superelastic fibers, the first face, and the second face are all made of Nitinol. 19. The body armor according to claim 1 wherein the superelastic three dimensional construct has a height between 0.025 inch and 0.750 inch. 20. The body armor according to claim 15 wherein each of the Nitinol wires have a diameter between 0.0005 inch and 0.015 inch. 21. The body armor according to claim 1 wherein the superelastic three dimensional construct includes 5 to 25 stitches per inch. 22. The body armor according to claim 1 wherein, in response to an applied stress, a phase of the plurality of superelastic fibers transforms between an austenitic phase and a martensitic phase. 23. A body armor comprising: a projectile-resistant outer layer; and an energy-absorbing inner layer, wherein the energy-absorbing inner layer comprises a superelastic three dimensional construct including a plurality of superelastic fibers of Nitinol, an innermost surface of Nitinol, an outermost surface of Nitinol, and voids, which are defined between the plurality of superelastic fibers, wherein the voids are empty spaces, wherein the body armor does not comprise foam.