Claims
- 1. An armor plate layered composite for protection against projectiles and having enhanced resistance to penetration from high kinetic energy projectiles, which armor plate comprises a metal substrate and a surface layer composite ceramic on said substrate of very finely-divided and interconnected grains of TiB.sub.2 and AlN.
- 2. The armor plate of claim 1, wherein said metal substrate comprises one or more of an elemental metal, alloy or intermetallic mixture.
- 3. The armor plate of claim 1, wherein said metal substrate comprises a metal selected from the group consisting of steel, aluminum, titanium and alloys and intermetallic mixtures thereof.
- 4. The armor plate of claim 1, wherein said surface layer ceramic contains from 10 to 90 weight percent TiB.sub.2 and a balance of AlN.
- 5. The armor plate of claim 1, wherein said ceramic layer of interconnected grains of TiB.sub.2 and AlN is prepared by one or more of conventional hot pressing, reaction hot pressing, hot isostatic pressing or pressureless sintering.
- 6. The armor plate of claim 1, wherein said metal substrate and ceramic surface layer are secured together by one or more of adhesive bonding, diffusion bonding, mechanical fastening, brazing, welding, soldering or combinations thereof.
- 7. The armor plate of claim 1, wherein said metal substrate and said composite ceramic are present together in a thickness having a ratio of metal to ceramic of from about 1:1 to about 6:1.
- 8. The armor plate of claim 1, wherein said plate is a multi-layer plate of greater than two layers.
- 9. The armor plate of claim 8, wherein said ceramic surface layer has a metal cover layer over same.
- 10. The armor plate of claim 1, wherein said ceramic has a density of at least 95 percent of theoretical density.
- 11. The armor plate of claim 1, wherein said ceramic has a microstructure comprising interconnected grains, of a grain size less than about five microns, the grains being of a TiB.sub.2 reaction product, the grains of which are interconnected in grains of AlN reaction product.
- 12. The armor plate of claim 1, wherein said ceramic has a microstructure of interconnected reaction product grains in mixture with particulate ceramic diluent of one or more of TiB.sub.2, AlN or their mixtures.
- 13. The armor plate of claim 12, wherein said particulate ceramic diluent is in fiber form.
- 14. An armor plate layered composite for protection against projectiles and having enhanced resistance to penetration from high kinetic energy projectiles, which armor plate comprises a metal substrate and a surface layer composite ceramic on said substrate of AlN in mixture with one or more of TiB.sub.2, SiC or B.sub.4 C, with said surface layer having very finely-divided and interconnected ceramic grains.
- 15. The armor plate of claim 14, wherein said metal substrate comprises one or more of an elemental metal, alloy or intermetallic mixture.
- 16. The armor plate of claim 14, wherein said metal substrate comprises a metal selected from the group consisting of steel, aluminum, titanium and alloys and intermetallic mixtures thereof.
- 17. The armor plate of claim 14, wherein said ceramic layer of interconnected ceramic grains is prepared by one or more of conventional hot pressing, reaction hot pressing, hot isostatic pressing or pressureless sintering.
- 18. The armor plate of claim 14, wherein said metal substrate and ceramic surface layer are secured together by one or more of adhesive bonding, diffusion bonding, mechanical fastening, brazing, welding, soldering or combinations thereof.
- 19. The armor plate of claim 14, wherein said metal substrate and said composite ceramic are present together in a thickness having a ratio of metal to ceramic of from about 1:1 to about 6:1.
- 20. The armor plate of claim 14, wherein said plate is a multi-layer plate of greater than two layers.
- 21. The armor plate of claim 20, wherein said ceramic surface layer has a metal cover layer over same.
- 22. The armor plate of claim 14, wherein said ceramic has a microstructure comprising interconnected grains of a grain size less than about five microns.
- 23. The armor plate of claim 14, wherein said ceramic has a microstructure comprising interconnected reaction product grains in mixture with particulate ceramic diluent of one or more of TiB.sub.2, AlN, SiC, B.sub.4 C or their mixtures.
- 24. The armor plate of claim 23, wherein said particulate ceramic diluent is in fiber form.
- 25. An armor plate composite for protection against projectiles and having enhanced resistance to penetration from high kinetic energy projectiles, which armor plate comprises a composite ceramic of very finely-divided and interconnected grains of TiB.sub.2 and AlN.
- 26. The armor plate of claim 25, wherein said composite ceramic is in association in said plate with one or more of a metal or plastic.
- 27. The armor plate of claim 25, wherein said ceramic composite is utilized in association with a spall cover.
- 28. The armor plate of claim 25, wherein said ceramic composite forms a part of an assembly which includes material in fibrous or woven form.
- 29. An armor plate composite for protection against projectiles and having enhanced resistance to penetration from high kinetic energy projectiles, which armor plate comprises a composite ceramic of very finely-divided and interconnected grains of AlN in mixture with one or more of SiC, B.sub.4 C or TiB.sub.2.
- 30. The armor plate of claim 29, wherein said composite ceramic is in association in said plate with one or more of a metal or plastic.
- 31. The armor plate of claim 29, wherein said ceramic composite is utilized in association with a spall cover.
- 32. The armor plate of claim 29, wherein said ceramic composite forms a part of an assembly which includes material in fibrous or woven form.
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is a continuation-in-part of U.S. patent application Ser. No. 945,116, filed Jan. 6, 1987, which in turn is a continuation-in-part of U.S. patent application Ser. No. 825,402 filed Feb. 3, 1986 and now abandoned.
US Referenced Citations (7)
Foreign Referenced Citations (2)
Number |
Date |
Country |
0033630 |
Jul 1984 |
EPX |
0164830 |
Dec 1986 |
EPX |
Non-Patent Literature Citations (1)
Entry |
The Journal of the American Ceramics Society, vol. 60, No. 12, pp. 674-679. |