Light weight composite of steel and aramid with fully penetrated reinforcement

What is claimed is: 1. A composite material comprising: a continuous steel matrix of sintered steel nanoparticles; and at least one structural aramid encapsulated within the continuous steel matrix, the at least one structural aramid being formed of fibers having an average cross-sectional diameter less than about 5 mm and penetrating the continuous steel matrix to a penetration depth, as measured from an outer surface of the continuous steel matrix, of at least 1 cm. 2. The composite material as recited in claim 1 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 200:1. 3. The composite material as recited in claim 1 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 10 3 :1. 4. The composite material as recited in claim 1 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 10 4 :1. 5. The composite material as recited in claim 1 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 10 5 :1. 6. The composite material as recited in claim 3 , wherein the at least one structural aramid is formed of fibers having an average cross-sectional diameter less than about 1 mm. 7. The composite material as recited in claim 3 , wherein the at least one structural aramid is formed of fibers having an average cross-sectional diameter less than about 0.5 mm. 8. The composite material as recited in claim 1 , wherein the at least one structural aramid comprises a para-aramid (p-aramid). 9. The composite material as recited in claim 1 , wherein the at least one structural aramid traverses substantially the entirety of the continuous steel matrix in at least one dimension, from one surface to an opposing surface. 10. The composite material as recited in claim 1 , wherein the at least one structural aramid is internally contained within the continuous steel matrix, without contacting an exterior surface of the continuous steel matrix. 11. The composite material as recited in claim 1 , wherein the continuous steel matrix comprises an alloy of iron, carbon, and at least one element selected from a group including: Mn, Ni, Cr, Mo, B, Ti, V, W, Co, Nb, P, S, and Si. 12. A composite material comprising: at least one structural aramid, formed of fibers having an average cross-sectional diameter less than about 1 mm; and a continuous steel matrix, of sintered steel nanoparticles, formed around and within the at least one structural aramid, and the fibers penetrating the continuous steel matrix to a penetration depth, as measured from an outer surface of the continuous steel matrix, of at least 1 cm. 13. The composite material as recited in claim 12 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 200:1. 14. The composite material as recited in claim 12 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 10 3 :1. 15. The composite material as recited in claim 12 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 10 4 :1. 16. The composite material as recited in claim 12 , characterized by a ratio of fiber penetration depth to fiber average cross-sectional diameter greater than about 10 5 :1. 17. The composite material as recited in claim 12 , wherein the at least one structural aramid is formed of fibers having an average cross-sectional diameter less than about 0.5 mm. 18. The composite material as recited in claim 12 , wherein the at least one structural aramid traverses substantially the entirety of the continuous steel matrix in at least one dimension, from one surface to an opposing surface. 19. The composite material as recited in claim 12 , wherein the at least one structural aramid is internally contained within the continuous steel matrix, without contacting an exterior surface of the continuous steel matrix. 20. The composite material as recited in claim 12 , wherein the continuous steel matrix comprises an alloy of iron, carbon, and at least one element selected from a group including: Mn, Ni, Cr, Mo, B, Ti, V, W, Co, Nb, P, S, and Si.