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A warhead device of an ordnance including a body of a high strength material, where the body includes a plurality of depressions; an explosive material, where the explosive material fills the body; and a plurality of reactive materials, where each reactive material fills a corresponding depression o

A warhead device of an ordnance including a body of a high strength material, where the body includes a plurality of depressions; an explosive material, where the explosive material fills the body; and a plurality of reactive materials, where each reactive material fills a corresponding depression of the plurality of depressions on the body. The high strength material is configured to endure an internal stress, a first stress caused by the plurality of reactive materials, and a second stress caused by another component of the ordnance. The internal stress, the first stress, and the second stress are in response to acceleration of the ordnance.

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1. A warhead device of an ordnance, comprising: a body comprising a high strength material, wherein said body comprises a plurality of depressions;an explosive material, wherein said explosive material fills said body; anda plurality of reactive materials, wherein each of said plurality of reactive

1. A warhead device of an ordnance, comprising: a body comprising a high strength material, wherein said body comprises a plurality of depressions;an explosive material, wherein said explosive material fills said body; anda plurality of reactive materials, wherein each of said plurality of reactive material fills a corresponding depression of said plurality of depressions on said body,wherein said high strength material is configured to endure an internal stress, a first stress caused by said plurality of reactive materials, and a second stress caused by another component of said ordnance, and wherein said internal stress, said first stress, and said second stress are in response to acceleration of said ordnance. 2. The device of claim 1, further comprising a shock attenuating layer comprising a material being configured for mitigating a shock effect, being associated with detonating said explosive material, on said body. 3. The device of claim 2, wherein each of said plurality of depressions comprises a geometrical shape comprising one of a circular, square, and rectangular shape. 4. The device of claim 2, wherein each of said plurality of depressions comprises a geometrical shape comprising one of a circular, square, and rectangular shape, and wherein said plurality of depressions are arranged in a pattern configured to maximize a fragment distribution of said body. 5. The device of claim 1, wherein said plurality of depressions are arranged in a pattern configured to minimize a stress on said body. 6. The device of claim 5, wherein said plurality of reactive materials are configured to react in response to colliding with a target. 7. The device of claim 5, wherein said plurality of reactive materials are configured to explode in response to colliding with a target. 8. A warhead device of an ordnance, comprising: a body comprising a high strength material, wherein said body comprises a plurality of perforations;an explosive material, wherein said explosive material fills said body; anda plurality of reactive materials, wherein each of said plurality of reactive material fills a corresponding perforation of said plurality of perforations on said body,wherein said high strength material is configured to endure an internal stress, a first stress caused by said plurality of reactive materials, and a second stress caused by another component of said ordnance, and wherein said internal stress, said first stress, and said second stress are in response to acceleration of said ordnance. 9. The device of claim 8, further comprising a shock attenuating layer comprising a material being configured for mitigating a shock effect, associated with detonating said explosive material, on said body. 10. The device of claim 9, wherein each of said plurality of perforations comprises a geometrical shape comprising any of a circular, square, and rectangular shape. 11. The device of claim 9, wherein each of said plurality of perforations comprises a geometrical shape comprising any of a circular, square, and rectangular shape, and wherein said plurality of perforations are arranged in a pattern configured to maximize a fragment distribution of said body. 12. The device of claim 9, wherein said plurality of perforations are arranged in a pattern configured to minimize a stress on said body. 13. The device of claim 9, wherein said plurality of perforations are arranged in a pattern configured to minimize a stress on said body, and wherein said plurality of reactive materials are configured to react in response to colliding with a target. 14. The device of claim 9, wherein said plurality of reactive materials are configured to explode in response to colliding with a target. 15. A warhead device of an ordnance, comprising: a body comprising a high strength material, wherein said body comprises a plurality of hollow locations;an explosive material, wherein said explosive material fills said body; anda plurality of reactive materials, wherein each of said plurality of reactive material fills a corresponding hollow location of said plurality of hollow locations on said body, wherein said high strength material is configured to endure an internal stress, a first stress caused by said plurality of reactive materials, and a second stress caused by another component of said ordnance, and wherein said internal stress, said first stress, and said second stress are in response to acceleration of said ordnance. 16. The device of claim 15, wherein said plurality of hollow locations comprises any of depressions and perforations. 17. The device of claim 15, further comprising a shock attenuating layer comprising a material being configured for mitigating a shock effect, associated with detonating said explosive material, on said body. 18. The device of claim 17, wherein each of said plurality of hollow locations has a geometrical shape comprising any of a circular, square, and rectangular shape. 19. The device of claim 17, wherein each of said plurality of hollow locations has a geometrical shape comprising any of a circular, square, and rectangular shape, and wherein said plurality of hollow locations are arranged in a pattern configured to maximize a fragment distribution of said body. 20. The device of claim 17, wherein said plurality of hollow locations are arranged in a pattern configured to minimize a stress on said body.