The present invention contemplates the addition of zirconium compounds to well known ceramic ballistic materials to increase resistance to penetration by projectiles. In the preferred embodiments of the present invention, the zirconium compound that is employed consists of ZrO2 and is provided in th
The present invention contemplates the addition of zirconium compounds to well known ceramic ballistic materials to increase resistance to penetration by projectiles. In the preferred embodiments of the present invention, the zirconium compound that is employed consists of ZrO2 and is provided in the range of about 0.1% to about 11%, by weight, of starting material before densification. Preferred ranges of proportion of ZrO2 in the finished ceramic material are in the ranges of about 0.30% to about 0.75%, by weight, or about 8-9%, by weight. The ballistic material using the combination of SiC with low volume of sintering aid and ZrO2 raises the theoretical density of the ceramic material to between 3.225 and 3.40 g/cc, which is slightly higher than the typical 3.22 g/cc theoretical density for hot pressed fully dense SiC. The unexpected result that accrues through combining silicon carbide and zirconia consists of the creation of controlled defects in the finished ceramic that increase the surface area that is fractured during a ballistic event, enhancing spreading of the forces imposed on the ceramic material by a projectile and, as a result, the ability of the ballistic material to withstand higher forces while resisting penetration.
대표청구항▼
The invention claimed is: 1. A ceramic armor comprising a densified mixture of a silicon carbide ceramic material and zirconium carbide formed from a mixture comprising 0.1 to about 11%, by weight, of zirconia before densification, said silicon carbide ceramic material being sintered with aluminum
The invention claimed is: 1. A ceramic armor comprising a densified mixture of a silicon carbide ceramic material and zirconium carbide formed from a mixture comprising 0.1 to about 11%, by weight, of zirconia before densification, said silicon carbide ceramic material being sintered with aluminum nitride as a sintering aid, said armor having a density at least 99% of theoretical density. 2. The armor of claim 1, wherein said silicon carbide ceramic material comprises a hot pressed dense SiC material made from silicon carbide powder of which at least 92% is made up of alpha or beta silicon carbide. 3. The armor of claim 1, wherein said zirconia reacts to zirconium carbide during heat treatment. 4. The armor of claim 1, wherein said zirconia comprises about 0.3% to about 0.75%, by weight, of said mixture. 5. The armor of claim 3, wherein said zirconia comprises about 0.3% to about 0.75%, by weight, of said mixture. 6. The armor of claim 1, wherein said armor includes controlled defects that enhance spread of forces when a projectile strikes said armor. 7. The armor of claim 1, wherein said armor includes controlled defects that enhance spread of forces when a projectile strikes said armor. 8. The armor of claim 7, wherein said zirconia has a thermal expansion greater than a thermal expansion of silicon carbide. 9. The armor of claim 8, wherein said armor has a density greater than 3.22 g/cc. 10. The armor of claim 1, wherein said zirconia comprises about 8-9%, by weight, of said mixture. 11. A ceramic armor comprising a mixture of 89-99%, by weight, hot pressed SiC material and 0.1 to 11%, by weight, of ZrO2 starting material before densification, said SiC material being sintered with MN as a sintering aid, said armor having a density at least 99% of theoretical density. 12. The armor of claim 11, wherein said ZrO2 comprises about 0.3% to about 0.75%, by weight, of said mixture. 13. The armor of claim 11, wherein said armor includes controlled defects that enhance spread of forces when a projectile strikes said armor. 14. The armor of claim 11, wherein said ZrO2 has a thermal expansion greater than a thermal expansion of silicon carbide. 15. The armor of claim 11, wherein said armor has a density greater than 3.22 g/cc. 16. The armor of claim 11, wherein said ZrO2 comprises about 8-9%, by weight, of said mixture. 17. The armor of claim 12, wherein said armor has a density greater than 3.22 g/cc.
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이 특허에 인용된 특허 (5)
Krstic Vladimir D. (Queen\University ; Department of Materials and Metallurgical Eng. ; Nicol Hall Kingston ; Ontario CAX) Vlajic Milan (Queen\University ; Department of Materials and Metallurgical E, Making of sintered silicon carbide bodies.
Chia Kai Y. (Lewiston NY) Boecker Wolfgang D. G. (Frankfurt am Main NY DEX) Storm Roger S. (Clarence NY), Silicon carbide bodies having high toughness and fracture resistance and method of making same.
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