RU80935U1 - BRONEPANEL - Google Patents

Abstract

The utility model relates to means of armor protection and can be used to protect people and equipment from damage by a bullet, a fragment, melee weapons. The armor panel contains a shell, ceramic tiles and a base. On the basis of the armored panel by means of an adhesive substance, ceramic tiles covered by a shell are fixed. The shell is made of high-modulus aramid fabric such as Kevlar, Dynaem, TSVM-DJ. Ceramic tiles are sintered silicon carbide with a base material content of ≥88%. As the base, extruded ultra-high-modulus Daynema polyethylene or a composite of several layers of fabric TSVM-DZ or Kevlar is used.

Description

The utility model relates to means of armor protection and can be used to protect people and equipment from being hit by a bullet, a fragment, melee weapons or hitting other moving objects.

Known means of protection against armor-piercing bullets and bullets with heat-strengthened cores contain various types of ceramics, as a rule, made of corundum or boron carbide, glass ceramics. Such protective equipment is either inexpensive, but does not provide the required protection class, such as using glass ceramics, or, with the required protection class, are very expensive, such as using boron carbide (RF patent 2130159, MKI F41H 1/02, publ. 05/10/1999).

The closest in technical essence to the claimed utility model is a bulletproof armored panel (RF patent for utility model No. 51191, MKI F41H 1/02, publ. 01/27/2006), which contains a shell, glass-ceramic tile, located on an intermediate layer made of hard sheet material, and a layered base made of extruded ultra-high modulus Daynem polyethylene or a composite of several layers of fabric TSVM-DZ or Kevlar. The disadvantage of the prototype is the low protection class, in particular, when exposed to a steel heat-strengthened core (bullet) weighing more than 9 g at flight speeds of more than 820 m / s.

The objective of the utility model is to create a new design of the armored panel, providing higher protective properties of the armor.

The technical result from the use of the developed design is to increase the protection class and reduce the weight of the armored panel. The armor panel contains a shell, ceramic tiles and a base. On the basis of the armored panel by means of an adhesive substance fixed

ceramic tiles, covered by a shell. The shell is made of high-modulus aramid fabric such as Kevlar, Dynaem, TSVM-DJ.

Ceramic tiles are sintered silicon carbide with a density of ≥3.2 g / cm ³ , porosity ≤1%, bending strength of at least 500 MPa and a content of the main component (silicon carbide) ≥88 wt.%.

As the base (backing layer), pressed ultra-high-modulus Daynema polyethylene or a composite of several layers of TSVM-DZ or Kevlar fabric is used. Urethane glue is used as an adhesive to connect the shell, ceramic tiles, and support layers to each other.

The scheme of the utility model is shown in the diagram, which is a cross section of the armored panel, where 1 is the shell, 2 is ceramic tile, 3 is the support layer (base).

The design works as follows: when a bullet hits a ceramic tile 2 (a fragment) it creates shock waves that destroy the tile. Most of the energy of these waves is dissipated during its destruction, part passes and is reflected from the hard base and partially destroys neighboring ceramic tiles. Thus, the scattering (dissipation) of the shock wave occurs. Shell 1 is used to protect against flying fragments of ceramic tiles and fragments of a bullet (fragment).

The technical result is achieved through the use of ceramic tiles with high physical and mechanical characteristics, such as hardness, strength, elastic modulus, which provide effective dissipation (dissipation) of impact energy.

The developed design of the armored panel has high protective properties, namely it corresponds to the 6th protection class according to GOST R 50744-95 (SVD sniper rifle, bullet with a steel heat-strengthened core of 7.62 mm caliber and a speed of 820-835 m / s), while the surface the density of the armored panel is 34.0 kg / sq. meter. The cost of the developed armored panel is ~ 2 times lower than the armored panels with boron carbide tiles.

Claims (3)

1. An armor panel containing a shell made of high-modulus aramid fabric such as Kevlar, Daynem, TSVM-DZ, ceramic tiles and a composite base based on layers of fabric TSVM-DZ or Kevlar, characterized in that the ceramic tiles are made of sintered silicon carbide. 2. The armored panel according to claim 1, characterized in that the sintered silicon carbide has a density of at least 3.20 g / cm ³ and a total porosity of less than 1%. 3. The armored panel according to claim 1, characterized in that the ceramic tiles contain silicon carbide in an amount of not less than 88 wt.%.