RU2099666C1 - Metal protective member of armored jacket - Google Patents

Abstract

FIELD: designing and production of protective means. SUBSTANCE: the face surface of the metal protective member of the armored jacket has a regular hexagonal microrelief with 3 to 4 lugs per sq.mm, the presurface layer is strengthened with an increase of microhardness by 25 to 30% to a depth of 30 to 40 micrometers. EFFECT: enhanced bulletproofness and reduced mass. 2 dwg

Description

 The invention relates to the design and manufacturing technology of protective equipment.

 The protective element of body armor are plates made of metal and other materials / ceramics, Kevlar / capable of withstanding the shock and penetrating effects of bullets, fragments of grenades, shells.

 Depending on the penetrating ability of a bullet fired from a different type of weapon / gun, machine gun, rifle /, plates are made of various thicknesses, which determines the design and specification of body armor as a means of protection against weapons of various types.

 The protective element of the body armor of the above specification is known, the increase in armor resistance of which is achieved by increasing the thickness of the armor plate, which entails a significant increase in the weight of the body armor. This inevitably complicates the motor activity of a person dressed in a similar body armor, which is an important factor in an appropriate environment.

 Rabintex Industries LTD Bulletproff Vests.

 / Bulletproof vests of the Rabintex company in prospectuses of the Rabintex company /. The closest prototype is the patent US N 3793048, F 41 H 1/02, where the protective elements of the body armor are made in the form of metal plates.

Increasing the armor resistance of the plate while reducing its weight, as achieving the technical result of the present invention, is possible using the vibro-rolling method, the essence of which is the creation of a regular hexagonal microrelief at the last stage of metal processing, which is a combination of regularly arranged convex protrusions in steps and in height of 3 -4 per 1 mm ² . The creation of such a relief is accompanied by hardening of the surface layer of the metal with an increase in microhardness by 25-30% to a depth of 30-40 micrometers.

 Thus, the most optimal variant of the protective element will be a bag from a set of relatively thin plates processed in this way. A bullet, penetrating through a series of plates, will deform / flatten faster, and will dramatically lose kinetic energy of movement and, accordingly, breakdown ability.

 In FIG. 1 shows a hexagonal microrelief created on a metal plate; figure 2 conditions for the interaction of the bullet with armor plates at the time of contact.

 Hardening the surface layer of metal in each plate will significantly enhance the armor-protective properties of the entire package as a whole and, accordingly, will reduce the thickness of the package of plates while maintaining armor resistance to the impact of a particular type of weapon and, thus, reduce the total weight of the body armor.

 In addition, when using a set of plates, it becomes possible to unify the design of the body armor itself for the purpose of its wide functional use / protection against edged weapons, pistol bullets, machine guns, rifles, grenade trowels, shells, etc. / by varying the number of armor plates in the package.

Claims (1)

A metal protective element of body armor, characterized in that a regular hexagonal microrelief with the number of protrusions 3 4 per 1 mm ^{2 is} formed on its front surface.

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