RU2077021C1 - Armour-piercing bullet - Google Patents

Abstract

FIELD: small-arms ammunition intended for shooting light armored targets. SUBSTANCE: the bullet has a stepped envelope-consisting of the head, leading, caliber, centering and tail parts. The bullet slug is fastened in the envelope over the internal surface of the centering and tail parts; the relation between the envelope thickness in the area of its centering part and the thickness is the area of the leading part is 2 to 5. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to ammunition for small arms intended for firing at lightly armored targets.

 Known bullet P1028 (drawing inv. 02476/6, TSNIITOCHMASH, Klimovsk, 1979) which is the prototype of the proposed design. It is a bullet of a semi-shell design with a blunt core and a lead element acting as an inertial ring, as a result of which the reliability of breaking through barriers increases.

Bullet RG028 has a value of a ballistic coefficient of the order of 13 m ² / kg, which limits its use at ranges above 50 m
With id ² / q
where C is the ballistic coefficient;
i form factor;
q bullet weight;
d bullet caliber.

 It is known that the lower the value of the ballistic coefficient, the smaller the loss of speed of a bullet, etc. those. a decrease in the value of the ballistic coefficient favorably affects the efficiency of the cartridge.

 It is possible to lower the value of the ballistic coefficient of bullets of this design (for d const) by reducing the coefficient of form i and increasing the weight of the bullet q. It is possible to increase the weight of a bullet by increasing its length, which will inevitably lead to an increase in the length of the leading part, and this, in turn, given the high stiffness of the leading part of the bullet, will entail an increase in the dispersion of the initial velocity of the bullets and a decrease in survivability of the barrel, which leads to a deterioration in accuracy firing.

 From the point of view of penetration of barriers, the use of a core with a blunt front end is effective when firing at metal sheets (for example, steel or aluminum), the process of breaking through the principle of "knocking out the cork." The use of the indicated core design when breaking through some types of body armor, for example, domestic 6B2 body armor, is inefficient, since the blunt core does not penetrate tissue layers located behind metal plates. As experiments show, bullets do not penetrate the bulletproof vest 6B2 even from a distance of 5 m.

 Thus, taking into account all the above disadvantages, the effective use of the design of the bullet RG028 is limited to a range of 50 m.

 The aim of the invention is to increase the penetration ability of bullets at ranges of existing guns and rifle cartridges and to improve the accuracy of firing by bullets of similar designs.

 This goal is achieved by performing a shell of a new original design having a centering part with a diameter on the outer surface equal to the caliber and a wall thickness in the region of the centering part equal to 2-5 wall thicknesses in the region of the leading part, as well as pressing the armor-piercing core on the inner surface centering part and bottom.

 The drawing shows the construction of the bullet section.

 The bullet of the proposed design consists of shell 1, shirt 2 and core 3. The bullet has a step-shaped shell, consisting of the head (g.h.), leading (h.p.), centering (tsch.) And tail (x. h.) parts. The shell has an internal cavity in the region of the centering tail parts, on the surface of which the core is fastened.

 The above distinguishing features are significant for the following reasons.

 The presence of a thin-walled leading part, as well as a centering part with a diameter on the outer surface equal to the caliber, can significantly increase the length of the bullet compared to the bullet RG028 and, as a result, significantly increase the value of the kinetic energy of the bullet when it encounters an obstacle.

 The presence of massive centering and tail parts of the shell in comparison with the leading one allows giving the core during penetration an additional value of kinetic energy, increasing its breakdown ability, and the presence of traces of rifling of the trunk on a thin-walled leading part facilitates the destruction of the shell, since in the process of breaking through, the marks of rifling play the role of stress concentrators, along which the “opening” of the shell occurs.

 The shell wall thickness in the region of the centering part is 2-5 times greater than the wall thickness in the region of the leading part. Decreasing the wall thickness of the centering part below the minimum specified limit practically does not give the effect of giving the core additional kinetic energy from the centering and tail parts, and increasing it above the maximum specified limit leads to a decrease in the transverse strength of the core, since in this case, its diameter decreases.

 In the proposed design of the bullet, a core with a pointed warhead can be used, which can significantly increase the penetration ability of bullets when firing on bulletproof vests, as well as improve the shape factor by giving the bullet’s head part a streamlined shape.

 The introduction of a centering part into the shell design with a core fixed on its inner surface allows to improve the accuracy of fire compared to bullets of similar designs. The bullet is inserted and guided along the rifling of the barrel along the length of the leading part, which is easily deformable due to the small thickness of the shell wall and the presence of a lead shirt. The length of the leading part in the pool of the proposed design may vary depending on the caliber, weight and other parameters of the bullet. This allows you to choose the optimal length of the leading part, taking into account all the structural and operational requirements presented in the pool (the required strength of the shell when interacting with rifling, the minimum dispersion of the initial velocity, the minimum wear of the barrel, etc.).

 In addition, the presence of a rigid centering part allows, after cutting the bullet into the rifling, to best center the bullet in the bore, as the diameter of the centering part is equal to the diameter of the barrel channel along the rifling fields, which leads to the coincidence of the axis of the bullet with the axis of the barrel channel. This in turn reduces the dynamic imbalance of the bullet after departure from the barrel, which improves the accuracy of fire.

 The authors made an experimental batch of 9-mm cartridges with a bullet of the proposed design and tested them by firing on the accuracy of the battle and on the punching effect on steel sheets and 6B2 body armor.

Shooting was carried out by bullets having a weight of 16 g with an initial speed of V ₁₀ 300 m / s.

 The tests showed that the bullets of an experienced 9 mm cartridge when firing from a ballistic barrel have 100% penetration of a 4 mm steel sheet (steel 3 or steel 45) at ranges up to 450 m.

At the same time, cartridges with bullets RG028 weighing 6.2 g and V ₁₀ 320 m / s have a maximum penetration range of a similar obstacle of 50 m. with an increase in the weight of the bullet by 2.6 times, the range of the breakdown increased by 9 times.

 When firing on bulletproof vest 6B2 with a 25 mm pine board behind it, the proposed bullet provides 100% penetration of the obstacle at a distance of 450 m. Bullets RG028 do not penetrate a similar obstacle from a distance of 5 m.

Bullets of the proposed design have the accuracy of firing from a ballistic barrel at a distance of 100 m R ₅₀ 2.7 cm; R ₁₀₀ 8 cm. For comparison, cartridges in which RG028 bullets are used have accuracy at a distance of 100 m R ₅₀ 9 cm, R ₁₀₀ 25 cm. Thus, a bullet has been proposed which, by introducing new distinguishing features into the design, significantly increases its effectiveness use compared to existing bullets for a similar purpose.

Claims (1)

 An armor-piercing bullet containing a shell with an internal stepped surface, having a part made with thinning, a leading and a tail part, in which a shirt and an armor-piercing core are fixed, characterized in that the shell is made stepped on the outer surface with a protruding leading surface and a calibrated centering part located between its leading and tail parts, while the core is fixed in the shell along the inner surface of the centering and tail parts, and the ratio of the thickness of the shell in the region of its center thickness to the leading part is 2 5.