Materials gradient within armor for balancing the ballistic performance

What is claimed is: 1. A ballistic resistant composite comprising: a first fibrous material comprising one or more first fibrous plies, each of the first fibrous plies comprising fibers that have a tenacity of greater than 27 g/denier; a second fibrous material attached to the first fibrous material, said second fibrous material comprising one or more second fibrous plies, each of the second fibrous plies comprising fibers that have a tenacity lower than the tenacity of the fibers of the first fibrous material; and a third fibrous material attached to the second fibrous material, said third fibrous material comprising one or more third fibrous plies, each of the third fibrous plies comprising fibers that have a tenacity lower than the tenacity of the fibers of the second fibrous material; wherein the first fibrous material, second fibrous material and third fibrous material are bonded together and form a consolidated, unitary composite article. 2. The ballistic resistant composite of claim 1 wherein each of the fibers of the first fibrous material has a tenacity of 40 g/denier or more. 3. The ballistic resistant composite of claim 1 wherein each of the fibers of the first fibrous material has a tenacity of 45 g/denier or more. 4. The ballistic resistant composite of claim 1 wherein each of the fibers of the second fibrous material has a tenacity of at least 25% less than the tenacity of each of the fibers of the first fibrous material. 5. The ballistic resistant composite of claim 1 wherein each of the fibers of the second fibrous material has a tenacity of 21 g/denier or less. 6. The ballistic resistant composite of claim 1 wherein each of the fibers of the third fibrous material has a tenacity of at least 25% less than the tenacity of each of the fibers of the second fibrous material. 7. The ballistic resistant composite of claim 1 wherein the third fibrous material comprises nylon fibers, polyester fibers, polypropylene fibers, polyolefin fibers or a combination thereof. 8. The ballistic resistant composite of claim 1 wherein the first fibrous material comprises ultra-high molecular weight polyethylene fibers, the second fibrous material comprises either ultra-high molecular weight polyethylene fibers or aramid fibers or a combination thereof, and the third fibrous material comprises nylon fibers. 9. The ballistic resistant composite of claim 1 wherein the first fibrous material is a non-woven fabric comprising a plurality of unidirectionally oriented fibers, the second fibrous material is a non-woven fabric comprising a plurality of unidirectionally oriented fibers, and the third fibrous material is either a non-woven fabric comprising a plurality of unidirectionally oriented fibers, a woven fabric, a knitted fabric or a felt. 10. The ballistic resistant composite of claim 1 further comprising a non-fibrous isotropic layer attached to the third fibrous material, wherein the first fibrous material, second fibrous material, third fibrous material and the non-fibrous isotropic layer are bonded together and form a consolidated, unitary composite article, and wherein said isotropic layer comprises an epoxy, a metal sheet or an energy mitigating foam. 11. The ballistic resistant composite of claim 1 wherein the fibers of the first fibrous material and the fibers of the second fibrous material are substantially coated with a polymeric binder. 12. A ballistic resistant article formed from a ballistic resistant composite, said composite comprising: a first fibrous material section comprising one or more first fibrous plies, each of the first fibrous plies comprising fibers that have a tenacity of greater than 27 g/denier; a second fibrous material section attached to the first fibrous material section, said second fibrous material section comprising one or more second fibrous plies, each of the second fibrous plies comprising fibers that have a tenacity of at least 50% less than the tenacity of the fibers of the first fibrous material section; and a third fibrous material section attached to the second fibrous material section, said third fibrous material section comprising one or more third fibrous plies, each of the third fibrous plies comprising fibers that have a tenacity of at least 50% less than the tenacity of the fibers of the second fibrous material section; wherein the first fibrous material section, second fibrous material section and third fibrous material section are bonded together and form a consolidated, unitary composite article, wherein the article has an outermost, strike-face section, wherein said first fibrous material is positioned as said outermost, strike-face section. 13. The ballistic resistant composite of claim 12 wherein each fibrous material section has an areal density of at least 976 g/m 2 . 14. The ballistic resistant composite of claim 8 wherein said nylon fibers have a tenacity of from about 5 g/denier to about 10 g/denier. 15. The ballistic resistant composite of claim 8 wherein said nylon fibers have a tenacity of less than 7 g/denier. 16. The ballistic resistant composite of claim 8 wherein said nylon fibers have a tenacity of less than 5 g/denier. 17. The ballistic resistant composite of claim 1 wherein each of the fibers of the first fibrous material has a tenacity of from about 28 g/m 2 to about 60 g/m 2 , each of the fibers of the second fibrous material has a tenacity of from about 20 g/m 2 to about 30 g/m 2 and each of the fibers of the third fibrous material has a tenacity of from about 5 g/m 2 to about 20 g/m 2 or less than 5 g/m 2 . 18. The ballistic resistant composite of claim 1 wherein each of the fibers of the first fibrous material has a tenacity of from about 28 g/m 2 to about 45 g/m 2 , wherein each of the fibers of the second fibrous material has a tenacity of from about 20 g/m 2 to about 30 g/m 2 and wherein each of the fibers of the third fibrous material has a tenacity of less than 5 g/m 2 . 19. The ballistic resistant composite of claim 1 which consists of three fibrous materials, wherein all the fibers of the first fibrous material and all the fibers of the second fibrous material are the same fiber type, and wherein the third fibrous material is formed from nylon fibers.