RU2227132C2 - Elastic explosive compound - Google Patents

Abstract

FIELD: production of explosives and charges of various geometric shapes, such as detonating cords, terminations and the like. SUBSTANCE: proposed elastic explosive compound contains explosive, dibutyl phthalate, polytetra-fluoroethylene, soot and thermoplastic elastomer which includes butadiene nitrile rubber and polybutadiene rubber. Hexogen may be used as explosive. EFFECT: enhanced strength, elasticity, frost-resistance and aggressive activity. 3 cl, 5 tbl

Description

The invention relates to the field of explosives and, due to its thermoplastic properties, can be used in the manufacture of charges of various geometric shapes for various purposes (detonating cords, wiring, etc.) by the methods used to process thermoplastic materials.

Known elastic explosive composition (US patent 4014720 from 03/29/1977, class C 06 B 45/10), containing, wt.%: 50 - 90 powder blasting explosive (octogen, RDX or PETN), 10-50 binder, consisting from high viscosity nitrocellulose and triethylene glycol dinitrate (TEGDN) plasticizer (1-8 nitrocellulose, the ratio of TEGDN / nitrocellulose is from 4/1 to 7/1). This explosive composition has low tensile strength (up to 2.0 MPa), low oil and petrol resistance and frost resistance.

Explosive is known (accepted application of Great Britain 1334419, С 06 В 15/02 / С1 D / 1973), containing 65-85 parts by weight crystalline blasting explosive dispersed in 15 parts by weight a binder containing an ester plasticized with liquid organic nitroesters. This explosive has low strength, flexibility and elasticity, and therefore is not suitable for the manufacture of elongated charges.

The closest technical solution adopted for the prototype is an elastic explosive composition for a flexible detonating cord (US patent 3407731 from 05/02/1967, class C 06 C), containing, wt.%: RDX 75; carboxylate nitrile butadiene rubber 15; plasticizer (dibutyl phthalate) 4.5; metal oxides (ZnO), stearic acid and antioxidant (neozone-D) 5.5 (total).

The disadvantage of the prototype should be considered low strength characteristics (tensile strength of 2.6 MPa, elongation of 30%).

The aim of the invention is the creation of an elastic explosive composition intended for the manufacture of charges of various geometric shapes for various purposes (detonating cords, wiring, etc.), which has an optimal set of properties in terms of strength, elasticity, frost resistance and aggressiveness.

The problem is solved in that polytetrafluoroethylene and soot are additionally introduced into an elastic explosive composition including an explosive, dibutyl phthalate and a thermoplastic elastomer in the following ratio of components, wt.%:

Explosive 80.0-90.0

Dibutyl phthalate 1.0-3.0

Polytetrafluoroethylene 0.5-3.0

Soot 0.02-0.1

Thermoplastic elastomer

where, as a thermoplastic elastomer, the composition contains a mixture of SKN-18M nitrile butadiene rubber and SKD polybutadiene rubber, taken in the ratio, wt.%:

Nitrile butadiene rubber SKN-18M 76.4-78.4

Polybutadiene rubber SKD 21.6-23.6

RDX is used as an explosive.

The technical result consists in the fact that these components are used for the first time in the proposed combination and ratio for the preparation of an elastic explosive composition with increased strength characteristics, detonation speed and frost resistance while maintaining aggressiveness and which due to its thermoplastic properties can be used in the manufacture of charges of various geometric shapes of various destination (detonating cords, wiring, etc.) by methods used for Botko thermoplastic materials.

The composition is prepared by mechanical mixing. The detonating cord and other products are made by continuous pressing, extrusion, or other methods used to process thermoplastic materials.

Table 1 shows examples of the execution of the compositions according to the proposed technical solution (compositions 1-2) and the prototype (composition 7) and their characteristics.

Tables 2 and 3 show examples of the performance of the compositions when using instead of RDX, HMX and TEN (compositions No. 3-6).

Tables 4 and 5 show examples of the performance of the compositions when using fluorine-containing rubber SKF-26 (compositions 8-9) and the prototype (composition 7) as a thermoplastic elastomer and their characteristics. Despite the fact that compositions 8-9 and the claimed composition have similar characteristics, the use of a thermoplastic elastomer according to the claimed composition will be economically feasible.

The use of the inventive composition as a thermoplastic elastomer of polyisobutylene (see table 5) gives lower results in the critical diameter and velocity of detonation.

As can be seen from the table, the composition according to the claimed technical solution (1-2) has higher elasticity (35-40%) and strength (3.2-3.5 MPa) than the prototype. The critical diameter of the claimed composition is 2 times less. The speed of detonation of the claimed composition also exceeds the prototype (7800 m / s against 7200 m / s). The inventive composition exceeds the prototype in frost resistance, while the resistance to the effects of an aggressive environment of the claimed composition is not inferior to the prototype.

Thus, an elastic explosive composition has been developed that has improved strength characteristics, detonation speed and frost resistance while maintaining aggressiveness, and which due to its thermoplastic properties can be used in the production of charges of various geometric shapes for various purposes (detonating cords, wiring, etc.) by methods used for processing thermoplastic materials.

Claims (3)

1. An elastic explosive composition for the manufacture of charges of various geometric shapes, containing explosives, dibutyl phthalate and thermoplastic elastomer, characterized in that it additionally contains polytetrafluoroethylene and soot in the following ratio, wt.%: Explosive 80.0-90.0 Dibutyl phthalate 1.0-3.0 Polytetrafluoroethylene 0.5-3.0 Soot 0.02-0.1 Thermoplastic elastomer 2. The elastic explosive composition according to claim 1, characterized in that as a thermoplastic elastomer it contains a mixture of SKN-18M nitrile butadiene rubber and SKD polybutadiene rubber in the following ratio, wt.%: Nitrile butadiene rubber SKN-18M 76.4-78.4 Polybutadiene rubber SKD 21.6-23.6 3. The elastic explosive composition according to claim 1, characterized in that it contains hexogen as an explosive.