Three-dimensional auxetic composite structures

What is claimed is: 1. An auxetic structure, comprising: a first polyhedral unit and a second polyhedral unit arranged adjacent one another to form a three-dimensional structure, the first polyhedral unit comprising a rigid material and having a protrusion extending orthogonally from a surface and the second polyhedral unit comprising the rigid material and defining a recess formed in a surface thereof, the protrusion of the first polyhedral unit slidingly received in the recess defined by the second polyhedral unit; and a wavy sleeve positioned in the recess, said wavy sleeve comprising a softer material than the rigid material displacement of the protrusion in the sleeve and recess generating a shear-induced auxetic effect in the auxetic structure. 2. The auxetic structure of claim 1 , wherein the structure is configured for use in resisting impact loads, mitigating vibrations, or providing mechanical support based on the shear-induced auxetic effect. 3. The auxetic structure of claim 1 , wherein each polyhedral unit has a truncated octahedral geometry. 4. The auxetic structure of claim 1 , wherein the polyhedral units have irregular shapes. 5. The auxetic structure of claim 1 , wherein the polyhedral units have regular shapes. 6. The auxetic structure of claim 1 , wherein the polyhedral units have a cubic shape, a hexagonal prism shape, a triangular prism shape, a truncated octahedron shape, or a gyrobifastigium shape. 7. The auxetic structure of claim 1 , wherein the polyhedral units comprise a voronoi polyhedral. 8. The auxetic structure of claim 1 , wherein each protrusion has a cylindrical shape. 9. The auxetic structure of claim 1 , wherein the auxetic structure provides damping and dissipates energy to mitigate impact and attenuate vibrations through local shear. 10. The auxetic structure of claim 1 , the surface comprising a wavy outer surface. 11. An auxetic structure, comprising: a first polyhedral unit and a second polyhedral unit arranged adjacent one another to form a three-dimensional structure, the first polyhedral unit comprising a rigid material and including a wavy outer surface having a protrusion and the second polyhedral unit comprising the rigid material and including a wavy outer surface defining a recess thereon, the protrusions of the first polyhedral unit slidingly received in the recess defined by the second polyhedral unit; and a 3D wavy interfacial layer, between adjacent first and second polyhedral units, said 3D wavy interfacial layer comprising a softer material than the rigid material, displacement of the protrusion on the 3D wavy interfacial layer and recess generating a shear-induced auxetic effect in the auxetic structure. 12. The auxetic structure of claim 11 , wherein the structure is configured for use in resisting impact loads, mitigating vibrations, or providing mechanical support based on the shear-induced auxetic effect. 13. The auxetic structure of claim 11 , wherein the polyhedral units have irregular shapes. 14. The auxetic structure of claim 11 , wherein the polyhedral units have regular shapes. 15. The auxetic structure of claim 11 , wherein polyhedral units have a cubic shape, a hexagonal prism shape, a triangular prism shape, a truncated octahedron shape, or a gyrobifastigium shape. 16. The auxetic structure of claim 11 , wherein the polyhedral units comprise a voronoi polyhedral. 17. The auxetic structure of claim 11 , wherein the wavy outer surfaces have a varied waviness to tune mechanical properties of the structure. 18. The auxetic structure of claim 17 , wherein the mechanical properties comprise stiffness, strength, toughness, Poisson's ratio, or damping. 19. The auxetic structure of claim 11 , wherein the auxetic structure provides damping and dissipates energy to mitigate impact and attenuate vibrations through local shear.