RU2055301C1 - Shaped charge - Google Patents

Abstract

FIELD: ammunitions. SUBSTANCE: case 1 houses explosive charge 2 with facing 3. Insert 4 of material having low density is placed in facing body flush with internal surface at distance 0.20-0.25 calibre of charge from vertex of facing. Thickness of insert amounts to 0.15-0.20 thickness of facing and height is B = A₁-A₂α, A₁=10.26-11.34 mm where A₂=0.114-0.126 mm/deg, α is angle of spread of facing. EFFECT: enhanced piercing capability. 1 dwg

Description

 The invention relates to military equipment, in particular to the design of cumulative ammunition designed to break through armor equipped with a single-layer dynamic protection.

Various designs of armor-piercing caliber and sub-caliber artillery shells are widely known [1]
A common disadvantage of such shells is the relatively low armor penetration, which is associated with the impossibility of achieving speeds of interaction with obstacles in excess of 2000 m / s.

 Closest to the invention are cumulative ammunition [2] which, due to the high-speed cumulative jet generated by the explosion, are capable of penetrating barriers up to 6 gauge thick.

 However, a significant drawback of classical cumulative ammunition is a sharp decrease in their effectiveness over obstacles equipped with dynamic protection elements, which, acting on the cumulative stream, completely or partially destroys it.

 The objective of the invention is to increase the effectiveness of the cumulative ammunition over obstacles equipped with elements of dynamic protection.

Cumulative ammunition designed to break through armor equipped with a single-layer dynamic protection, contains a housing, an explosive charge with a cumulative recess, and a lining of the cumulative recess placed therein. In addition, the munition is further provided with an insert made of a low density material, such as aluminum. The insert is made in the form of a conical ring in height
In a ₁ a ₂ α, where a ₁ 10.26-11.34 mm; a ₂ 0.114-0.126 mm / deg; 2 α is the angle of the cladding solution, and a thickness equal to 0.15 0.20 of the cladding thickness, and the liner is placed in the cladding body flush with its inner surface and is separated from the top of the cladding by a distance equal to 0.20 0.25 charge gauge.

 Comparative analysis with the prototype shows that the proposed cumulative ammunition is different in that it improves the efficiency of action on obstacles equipped with dynamic protection elements due to the presence of an insert made of low density material, which ensures the formation of a certain part of the cumulative stream interacting with the dynamic protection element, low density, which, in turn, creates the conditions for the passage of dynamic protection without initiating explosive dynamic protection, and thereby excluding its destructive effect on the cumulative stream.

The above statement is in agreement with the theory of sensitivity of explosives developed by Held, according to which the initiation of explosives by a cumulative jet occurs when the condition
And ρ V ² d> [A] ≈ 180, where ρ is the density of the material of the cumulative jet (g / cm ³ );
V cumulative jet velocity (km / s);
d cumulative jet diameter (mm);
[A] threshold sensitivity of explosives.

 Thus, the proposed cumulative ammunition meets the criterion of "novelty."

 Comparison of the proposed solution not only with the prototype, but also with other technical solutions in the art does not allow them to identify signs that distinguish the proposed from the prototype, which gives reason to conclude that the invention meets the criterion of "significant difference".

 The drawing shows a cumulative ammunition.

The cumulative ammunition contains a housing 1 equipped with a charge of explosives 2, a lining 3 with an insert 4. The insert is made in the form of a conical ring with a height
In a ₁ a ₂ α, where a ₁ 10.26 11.34 mm;
a ₂ 0.114 0.126 mm / deg;
2 α is the angle of the cladding solution, and the thickness δ 0.15 0.20 of the cladding thickness and is placed in the cladding body at a distance A (0.20 0.25) d (where d is the charge gauge) from the top of the cladding to the smaller end of the liner flush with the inner facing surface.

 Cumulative ammunition operates as follows.

 When exposed to detonation products on a part of the lining of length A, a cumulative jet is formed from the lining material. This part of the cumulative jet is necessary for breaking through structural elements, such as homing heads located in the head of the munition. Next, a cumulative jet is formed from a part of the lining of length B, on the inner surface of which a liner of low-density material is pressed in. This part of the cumulative stream freely passes through the head part, without wasting energy on its penetration, and acts on the element of dynamic protection without initiating explosives in it. The cumulative jet formed in the future freely penetrates through the hole in the dynamic protection element and is embedded in the material of the main barrier.

Liner height selection
In a ₁ a ₂ α, where a ₁ 10.26 11.34 mm;
a ₂ 0.114 0.126 mm / deg;
2 α angle of the cladding solution, justified by the requirement of through penetration of a standard dynamic protection element with minimal loss of the effective length of the main part of the cumulative jet.

 The choice of liner thickness δ 0.15 0.20 cladding thickness is associated with the physics of the process of formation of a cumulative jet, according to which ≈ 10 20 of the inner part of the crimped cladding is spent on the formation of the jet.

 The choice of distance A is justified by the fact that the lower limit A of 0.20 d (d caliber of charge) is selected from the condition of ensuring guaranteed penetration of the shielding elements of the ammunition formed from this part of the cumulative charge of the cumulative stream, and the upper limit of A 0.25 d ensures the penetration of the shielding elements in the event of their displacement as a result of the shock interaction of the ammunition with an obstacle preceding the operation of explosive devices.

Claims (1)

Cumulative ammunition containing a housing, an explosive charge placed therein with a cumulative recess and a cumulative recess lining, characterized in that it is further provided with an insert of low density material placed in the body of the lining flush with its inner surface and spaced apart from the top of the cladding, equal to 0.20 - 0.25 caliber of charge, while the liner is made with a thickness equal to 0.15 - 0.20 of the thickness of the lining, and the height
B = a ₁ -a ₂ α,
where a ₁ = 10.26 - 11.34 mm;
a ₂ = 0.114 - 0.126 mm / deg,
α is the angle of the facing solution.