Incendiary composition for a fin-stabilized kinetic energy projectile
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C06B-04510
출원번호
US-0222872
(2002-08-19)
우선권정보
DE-0040600 (2001-08-18)
발명자
/ 주소
Thiesen, Stefan
Lips, Hendrik
B?rngen, Lutz
Jungbluth, Dieter
출원인 / 주소
Rheinmetall W &
M GmbH
대리인 / 주소
Venable LLP
인용정보
피인용 횟수 :
3인용 특허 :
11
초록▼
An incendiary composition (14) for a fin-stabilized kinetic energy projectile (1), which can be arranged in the tail region of the projectile (1) and, upon impact with a target (13), penetrates the target (13) as a separate unit behind the penetrator (2) of the kinetic energy projectile (1). To reac
An incendiary composition (14) for a fin-stabilized kinetic energy projectile (1), which can be arranged in the tail region of the projectile (1) and, upon impact with a target (13), penetrates the target (13) as a separate unit behind the penetrator (2) of the kinetic energy projectile (1). To reach the objective of a high destructive effect caused by the incendiary composition (14) within a target (13), despite a small volume and a low mass, and to ensure that the incendiary composition is ignited securely by the shock waves generated upon impact, according to the invention, a titanium sponge is used as the incendiary composition (14), with an epoxide resin or a polyester resin used as a binder.
대표청구항▼
1. An incendiary composition for a fin-stabilized kinetic energy projectile, which can be arranged in the tail region of the projectile and, upon impact with a target, enters the target as a separate unit behind the penetrator of the kinetic energy projectile, said incendiary composition comprising:
1. An incendiary composition for a fin-stabilized kinetic energy projectile, which can be arranged in the tail region of the projectile and, upon impact with a target, enters the target as a separate unit behind the penetrator of the kinetic energy projectile, said incendiary composition comprising:85 to 96 weight % titanium sponge, and 4 to 15 weight % of an epoxide resin or a polyester resin; and wherein the density of the incendiary composition is between 1.7 and 2.8 g/cm3. 2. An incendiary composition according to claim 1, wherein the incendiary composition consists essentially of 96 weight % titanium sponge and 4 weight % epoxide resin and has a density of 2.5 g/cm3.3. An incendiary composition for a fin-stabilized kinetic energy projectile, which can be arranged in the tail region of the kinetic energy projectile and, upon impact with a target, enters the target as a separate unit behind the penetrator of the kinetic energy projectile, said incendiary composition comprising:65 to 86 weight % of titanium sponge, 4 to 15 weight % of an epoxide resin or a polyester resin, and 10 to 20 weight % of boron powder; and wherein the density of the incendiary composition is between 1.7 and 2.8 g/cm3. 4. An incendiary composition according to claim 3, wherein the incendiary composition consists essentially of 80 weight % titanium sponge, 5 weight % epoxide resin and 15 weight % boron powder, and has a density of 2.5 g/cm3.5. An incendiary composition according to claim 4, wherein the boron powder has a grain size of ?10 μm.6. An incendiary composition according to claim 3, wherein the boron powder has a grain size of ?10 μm.7. An incendiary composition according to claim 6, wherein the grain size range for the titanium sponge is such that 30% of the titanium sponge particles have a grain size larger than 450 μm and 70% have a grain size smaller than 450 μm.8. An incendiary composition according to claim 5, wherein the grain size range for the titanium sponge is such that 30% of the titanium sponge particles have a grain size larger than 450 μm and 70% have a grain size smaller than 450 μm.9. An incendiary composition according to claim 4, wherein the grain size range for the titanium sponge is such that 30% of the titanium sponge particles have a grain size larger than 450 μm and 70% have a grain size smaller than 450 μm.10. An incendiary composition according to claim 3, wherein the grain size range for the titanium sponge is such that 30% of the titanium sponge particles have a grain size larger than 450 μm and 70% have a grain size smaller than 450 μm.11. An incendiary composition according to claim 2, wherein the grain size range for the titanium sponge is such that 30% of the titanium sponge particles have a grain size larger than 450 μm and 70% have a grain size smaller than 450 μm.12. An incendiary composition according to claim 1, wherein the grain size range for the titanium sponge is such that 30% of the titanium sponge particles have a grain size larger than 450 μm and 70% have a grain size smaller than 450 μm.13. An incendiary composition for a fin-stabilized kinetic energy projectile, which can be arranged in the tail region of the projectile and, upon impact with a target, enters the target as a separate unit behind the penetrator of the kinetic energy projectile, said incendiary composition comprising:65 to 96 weight % titanium sponge, and 4 to 15 weight % of an epoxide resin or a polyester resin; and wherein the density of the incendiary composition is between 1.7 and 2.8 g/cm3.
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이 특허에 인용된 특허 (11)
Charles Harold (14 Bisset Dr. West Milford NJ 07480), Electro conductive polymer compositions and new materials found useful in their preparation.
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Skidmore, Mark A.; Davis, Andrew R.; Palen, Thomas V.; Salafia, Christian W; Deppert, Thomas M.; Knowlton, Gregory D., Mine defeat system and pyrotechnic dart for same.
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