Hybrid dimple-and-void auxetic structures with engineered patterns for customized NPR behavior

What is claimed is: 1. An auxetic structure comprising: an elastically rigid body that is capable of being deformed elastically and plastically under an applied stress, the elastically rigid body having: a plurality of apertures extending through the elastically rigid body, the plurality of apertures being arranged in a first array of rows and columns; and a plurality of protrusions projecting from the elastically rigid body in a normal plane in a z direction, the plurality of protrusions being arranged in a second array of rows and columns, each of the protrusions being elongated and having a major axis perpendicular to and longer than a minor axis, the major axes being in plane in an x direction or a y direction, the minor axes of the protrusions being parallel to the rows of the second array and the major axes of the protrusions being parallel to the columns of the second array, the plurality of protrusions being interleaved with the plurality of apertures, wherein the plurality of apertures is cooperatively configured with the plurality of protrusions to provide a porosity while exhibiting a negative Poisson's Ratio (NPR) value in any condition and axial orientation under any macroscopic planar loading conditions in any axial orientation. 2. The auxetic structure of claim 1 , wherein the protrusions include a first plurality of protrusions arranged with respective major axes parallel to the rows of the second array, and a second plurality of protrusions arranged with respective major axes parallel to the columns of the second array. 3. The auxetic structure of claim 1 , wherein the protrusions are elliptical. 4. The auxetic structure of claim 1 , wherein the protrusions include one or more raised protrusions and one or more recessed protrusions. 5. The auxetic structure of claim 1 , wherein each of the apertures is defined through a respective one of the protrusions. 6. The auxetic structure of claim 1 , wherein each of the apertures is elongated having a major axis perpendicular to a minor axis. 7. The auxetic structure of claim 6 , wherein the major axes of the apertures are parallel to the rows of the first array and the minor axes of the apertures are parallel to the columns of the first array. 8. The auxetic structure of claim 6 , wherein the apertures include a first plurality of apertures arranged with respective major axes parallel to the rows of the first array, and a second plurality of apertures arranged with respective major axes parallel to the columns of the first array. 9. The auxetic structure of claim 6 , wherein the apertures are S-shaped through slots. 10. The auxetic structure of claim 6 , wherein the elongated apertures are present in the elastically rigid body when in a stress-free state. 11. The auxetic structure of claim 6 , wherein the predefined porosity provided by the elongated apertures is approximately 0.3-9%.