RU2396224C1 - Multi-layered product of construction optics - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to multi-layered shockproof composite materials based on silicate glass. Multi-layered product contains unit of eight silicate glasses. The 1-st and 2-nd glasses are from 5.0 to 12.0 mm thick and are strengthened by air -hardening On external surface of the 2-nd glass applied are transparent current-conducting In₂O₃ coating and indium ties, which have reliable contact with frame via round mesh and collector-ring. The 3-rd glass is 8.0-15.0 mm thick and is strengthened by etching. The 4-th, 5-th and 6-th glasses are from 10.0 to 15.0 mm thick and are strengthened by etching. The 7-th glass is 2.0-5.0 mm thick and is strengthened by ionic exchange. The 8-th glass is 1.0-3.0 mm thick, is strengthened by ionic exchange, on its internal surface from the side of gluing layer current-conducting coating and indium ties are applied. The 1-st and 2-nd glasses are glued together with intermediate polyurethane A4700 2-5 mm thick film. Glasses 2, 3, 4, 5, 6 and 7 are glued with intermediate polyurethane A4700 8-12 mm thick film.

EFFECT: creation of multi-layered products of construction optics, applied as armoured glasses of special vehicles of 6-th class protection, withstanding bullet hit from DSR rifle and providing higher optic characteristics in exploitation in difficult climatic conditions.

Description

The invention relates to multilayer impact-resistant composite materials based on silicate glasses, intended for the manufacture of glazing products for ground and air transport, for example, glazing for special vehicles to protect against the effects of bullets from a rifle.

The multilayer products of structural optics (glazing) of land and air transport, according to the technical requirements for them, have special high strength and are designed for resistance to impact of solids, such as bullets or birds at high impact speeds. Structurally, such products usually consist of a high-strength power multilayer block made of silicate glass plates that absorb dynamic impact loads, and a back plate of various plastic transparent materials that holds silicate glass fragments in case of destruction of the silicate block.

The main task arising in the development of multilayer products of structural optics is to minimize mass while maintaining a given level of impact resistance, and most importantly bullet resistance due to the optimal combination of thicknesses of heavy glass and light adhesive layers.

Known impact-resistant multilayer glazing, consisting of four sheets of silicate glass with a thickness of 5 mm, interconnected by a transparent polyvinyl butyral film with a thickness of 0.3 mm, and a transparent structural polymer, for example polycarbonate. The total thickness of the product is 33 mm, weight 1 m ² 70 kg. Glazing of protection class 3 withstands shock by a light bullet flying at a speed of 1000 m / s from a distance of 10 cm (1).

However, the objective of the invention is the development and manufacture of glazing 6-a protection class.

Laminated glassware is also known, consisting of outer and inner sheets of glass fixed in a frame and intermediate polycarbonate sheets placed between them. The intermediate sheets are placed with gaps both between themselves and with respect to the outer and inner sheets of glass to create air traps that scatter and absorb bullet energy (2).

The disadvantage of this design is the absolute instability of polycarbonate to armor-piercing incendiary pool; in addition, insufficient light transmission for working with optical special devices at facilities operating in difficult climatic conditions.

Closest to the solution we propose is a multilayer product of structural optics, containing a block of ion-exchange hardened silicate glasses and adhesive layers between them of a polyvinyl butyral film and a back monoplate made of oriented organic glass (3).

The disadvantage of this product is the presence on the back side of organic glass, which does not meet the technical requirements for the resource and optics, since it has a small abrasion resistance and quickly becomes opaque.

The basis of the invention is the task of creating a multilayer product of structural optics, used as armored glass of special vehicles of the 6th protection class, which can withstand bullet from an SVD rifle and provides increased optical characteristics when operating in difficult climatic conditions, as well as protecting the crew from exposure to special factors.

The problem is solved in that the product of structural optics contains a block of toughened silicate glasses and adhesive layers between them and represents the following composition:

1st glass - external silicate glass with a thickness of 5-12 mm, hardened by air hardening,

2nd glass - silicate glass with a thickness of 5-12 mm, hardened by air hardening, providing protection from exposure to special factors, for which a transparent conductive coating is applied to the outer surface, which has reliable contact with the frame through a round mesh and a slip ring,

3rd glass - silicate glass 8-15 mm thick, toughened by etching,

4th glass - silicate glass 10-15 mm thick, toughened by etching,

5th glass - silicate glass 10-15 mm thick, toughened by etching,

6th glass - silicate glass with a thickness of 15-25 mm, toughened by etching,

7th glass - silicate glass 2-5 mm thick, strengthened by ion exchange,

8th glass - back silicate glass 1-3 mm thick, strengthened by ion exchange, electrically heated.

1 and 2 glasses are glued to each other with an intermediate A4700 polyurethane film 2-5 mm thick, 2, 3, 4, 5, 6 and 7th glasses - with a polyvinyl butyral film 1-3 mm thick, 7 and 8 glasses A4700 polyurethane intermediate film 8-12 mm thick.

Ensuring shock resistance, and most importantly bulletproof transport glazing is possible only when using high-strength glasses and organic materials. But now there are requirements for the creation of purely silicate more durable compositions. In addition, to create a transparent bulletproof armor, the following requirements must be considered:

- the outer front layers of the composition upon impact should not give a large spot of destruction, because the composite material should provide direct back strength when exposed three times to a rigid indenter at the corners of an equilateral triangle with a side of 120 mm and provide sufficient visibility after dynamic exposure;

- to ensure the above requirements, the outer glass should not have a high degree of tempering in order to avoid cracking upon impact of the indenter into the smallest fragments, which is achieved with a degree of tempering of 0.9-1.2 pores / cm;

- the middle glass in the composition should have a maximum strength of 1000-1700 MPa, which allows you to absorb the shock wave when they are destroyed and at the same time reduce the speed of the penetrating bullet. At the same time, have as small a lesion as possible to maintain sufficient transparency after dynamic exposure and collapse into as large fragments as possible to counteract subsequent (2nd and 3rd) dynamic impacts. These conditions can be ensured by the use of combined methods of glass hardening (air hardening + etching, etching + ion exchange, ion exchange + weak etching, etching of raw glass);

- the back thin glass with a thickness of 2-3 mm must be necessarily strengthened by ion exchange, which allows to obtain strength at the level of 300-700 MPa and bend without breaking under the impact of the indenter;

- gluing of the power part of the block is carried out on sufficiently rigid films providing high adhesion to create its solidity, which prevents the introduction of a bullet and reduces the speed of its implementation;

- the outer and back layers of glass are glued with highly elastic materials, such as polyurethane films;

- the first elastic layer in the product of structural optics is necessary for the relaxation of stresses that arise in operation from the temperature of the external environment and dynamic effects;

- the last bonding layer based on elastic materials (also such as polyurethane or polymers) is necessary to absorb the shock wave when exposed to a high-speed indenter.

To obtain a positive result on the dynamic stability of transparent armor, we tested and tested 7 different compositions, the thickness of which varied from 53 mm to 92 mm. Compositions from 53 mm to 70 mm showed a dangerous lesion.

Based on the above principles, a composition with a thickness of 92 mm was developed and tested, which constitutes the essence of the invention, which is 30-40 mm thinner than foreign and domestic analogues:

1st glass - silicate glass with a thickness of 5.0, hardened by air hardening,

2nd glass - silicate glass with a thickness of 5.0 mm, hardened by air hardening, a transparent conductive coating In ₂ O ₃ with indium busbars, having reliable contact with the frame through a round grid and a slip ring, is applied to the outer surface

3rd glass - silicate glass with a thickness of 10.0 mm, toughened by etching,

4th glass - silicate glass with a thickness of 15.0 mm, toughened by etching,

5th glass - silicate glass with a thickness of 15.0 mm, toughened by etching,

6th glass - silicate glass with a thickness of 19.0 mm, toughened by etching,

7th glass - silicate glass 3.0 mm thick, strengthened by ton exchange,

8th glass - silicate glass 3.0 mm thick, hardened by ion exchange, an In ₂ O ₃ conductive coating and indium bars are applied to the inner surface from the side of the bonding layer.

1st and 2nd glasses are glued together with an intermediate film of A4700 polyurethane 3.0 mm thick; 2nd, 3rd, 4th, 5th, 6th and 7th glasses - with a polyvinyl butyral film of DV 1.2 mm thick; 7 and 8th glass are glued with an intermediate film of A4700 polyurethane 10 mm thick.

During testing, the product withstood 3 rounds of fire from a SVD rifle, a bullet of 7.62 mm caliber, type B-32 (triangle, sides of which 120 mm) from a distance of at least 10 m.

The strength of the glasses was:

glass with a thickness of 5.0 mm - at the level of 180.0-200.0 MPa,

glass with a thickness of 10.0-19.0 mm - at the level of 1000.0-1500.0 MPA;

glass 3.0 mm thick - at the level of 450.0-500.0 MPa with minimum values of at least 300.0 MPa.

The presence of a conductive coating In ₂ O ₃ and an indium current-carrying bus provide radio protection and protection against electromagnetic radiation.

Products of structural optics have an increased service life while maintaining all technical characteristics, a high transmittance, provide transparency during operation in difficult climatic conditions.

Information sources

1. Austrian patent No. 37377, cl. B32B 17/08, 1984

2. Patent RU No. 2121972, cl. F45H 5/26, 2002

3. Patent RU No. 1802597, cl. F41H 5/04, 1995

Claims (1)

A multilayer product of structural optics, containing a block of silicate glasses and adhesive layers between them, characterized in that the product has the following composition:
1st glass - silicate glass with a thickness of 5.0-12.0 mm, hardened by air hardening,
2nd glass - silicate glass with a thickness of 5.0-12.0 mm, hardened by air hardening, on the outer surface of which a transparent conductive coating In ₂ O ₃ and indium bars are applied, which has reliable contact with the frame through a round grid and a slip ring,
3rd glass - silicate glass with a thickness of 8.0-15.0 mm, etched hardened,
4th glass - silicate glass with a thickness of 10.0-15.0 mm, toughened by etching,
5th glass - silicate glass with a thickness of 10.0-15.0 mm, toughened by etching,
6th glass - silicate glass with a thickness of 15.0-25.0 mm, toughened by etching,
7th glass - silicate glass with a thickness of 2.0-5.0 mm, strengthened by ion exchange,
8th glass - back silicate glass 1.0-3.0 mm thick, hardened by ion exchange, on the inner surface of which from the side of the bonding layer a conductive coating In ₂ O ₃ and indium bars are applied,
1 and 2 glasses are glued together with an intermediate film of A4700 polyurethane 2-5 mm thick; 2nd, 3rd, 4th, 5th, 6th and 7th glasses - with a polyvinyl butyral film of DW 1-3 mm thick; 7 and 8th glass are glued with an intermediate film of A4700 polyurethane with a thickness of 8-12 mm.