SE529517C2 - Pyrotechnic detonator, especially for detonator chain, contains oxidizing agent in form of metal amine complex bonded to dinitramide ions, and slag initiator as reducing agent - Google Patents

Abstract

The detonator comprises comprises a metal amine complex bonded to dinitramide ions, and a reducing agent comprising a slag initiator. A pyrotechnic detonator, especially for starting a detonator chain, comprises an oxidizing agent in the form of a metal amine complex bonded to one or more different dinitramide ions in different compositions, and at least one reducing agent comprising a slag initiator.

Description

25 30 35 529 517 2 is thought to give very quickly the rer aggressive igniters. A disadvantage of these, however, is that KDN is sensitive to moisture. The present invention provides igniters that are not moisture sensitive. Berger et al describe how dinitramide salts are used as oxidizers and mixed with reducing agents to produce rapidly deflagrant pyrotechnic batches (34m Intemational Annual Conference of ICT 2003, pages 1-15, V38. Alkali Dinitramide Salts Oxidizers for Special Pyrotechnic Applications.). These are simple metal salts of dinitramides and so far have no work with igniters that have metallamine complexes linked to dinitramide ions that oxidizers have been relied upon in the literature.

A further advantage encompassed by the invention is the method of preparing the metal amine complexes coupled to dinitramide ions. These have been prepared in previous references in a precipitation reaction with ADN (Ammonium dinitramide), ammonia and a water-soluble metal salt (Klapötke et al Anorg. Allg. Chem 2002, 628 (13), 2894-2900).

For the oxidizers of this invention, GUDN (Guanylurea dinitramide) has instead acted as a dinitramide anion source. GUDN is currently a significantly cheaper chemical than ADN, which is why the metal amine complexes will also be cheaper to produce through this process. The method used to prepare the GUDN which has been the starting material in this invention is disclosed in patent document WO2005070823.

It also states how some other dinitramides can be prepared from dinitramic acid.

THE INVENTION GENERAL A main endpoint of the invention is to provide a lead-free pyrotechnic igniter that meets all the requirements placed on one. According to the invention, a pyrotechnic igniter is obtained by mixing an oxidizing agent, in the form of a metallamine complex coupled to one or more dinitramide ions, together with a reducing agent in the form of a slag former in various compositions. In addition, additional chemical substances / compounds can be added to control properties, such as sensitivity or ability to be initiated, in the igniters. Examples of such compounds are primary and secondary explosives. Primary explosives are sensitive to initiation in the form of e.g. blow, breastfeeding, heat or friction and some primary explosives can range from aggression to detonation on their own. Primary explosives are used to start an explosive process or as a breeze-raising additive a so-called breeze additive. Typically, one finally wants to initiate a secondary explosive for detonation. Primary explosives or, for example, silicates can be added with the intention of increasing the initiation sensitivity of the batch. These are then called initiation additives. Examples of lead-free additives in the form of primary explosives are disilveraminotetrazole perchlorate, silver azide, tetrazene, potassium dinitrobenzofuroxane (KDN BF) and so on. Another possibility for increasing the sensitivity of an igniter is the initiation addition of silicates, for example quartz, glass wool, calcium silicide and so on. You can add secondary explosives with the intention of raising the breeze, ie. the explosive fate of the igniter. Examples of brisan additives in the form of secondary explosives are tetryl, triaminotrinitrobenzene, hexogen, octogen, pentyl, CL-20, hexanitrostilbene (HN S) and so on. In the present invention, these blast sleeve additives contribute to a higher explosive effluent and higher gas fate. Some of the designed compositions will be described by a number of examples below.

The said objects, as well as other objects not listed here, are satisfied in a satisfactory manner within the framework of what is stated in the independent patent claims.

Embodiments of the invention are set forth in the independent claims.

Thus, according to the present invention, there has been provided an improved pyrotechnic igniter, preferably intended to be used to start an igniter chain, characterized in that the igniter is comprised of an oxidizing agent, in the form of a metallamine complex coupled to one or more dinitramide ions in various compositions.

According to further aspects of the pyrotechnic igniter according to the invention: the pyrotechnic igniter also comprises at least one reducing agent comprising a slag former. that the reducing agent is a metal powder. that said reducing agent includes titanium and / or zirconium. that said reducing agent includes silicon and / or carbon. that the igniter also comprises an adhesive. that the igniter also comprises at least one initiation additive in the form of one or fl your primary explosives. that the igniter also comprises at least one initiator additive in the form of silicates. 52 15 517 4 that the igniter also comprises at least one brisan additive in the form of one or prim your primary explosives. that the igniter also comprises at least one breeze additive in the form of one or fl your secondary explosives.

DETAILED DESCRIPTION The present invention is intended to start at a given impulse a de-aggressive process, i.e. the invention should ignite something. What is ignited by the igniter can e.g. be a pyrotechnic kit, a powder or an explosive.

The invention is a pyrotechnic igniter consisting of at least one lead-free metal amine complex coupled to one or more dinitride ions, alone or together with one or more of the reducing agents in the form of slag formers, eg boron, zirconium, titanium or silicon. These examples of reducing agents should not be seen as restrictions on which slag formers can be used, but should be seen as examples. In addition to these ingredients, other chemical substances / compounds can also be added to achieve specific properties of the igniters, such as increased sensitivity or increased gas production.

It is also possible to add a binder in order to be able to granulate the igniters or to make a paste of the igniters and thereby use the invention e.g. as spark plugs. Binders are mixed in the batch to an amount of 0-15% by weight and include, for example, nitrocellulose, ethylcellulose, carboxymethylcellulose or bonosol and so on.

The metallamine complexes preferably consist of the metals, Cu, Zn, and Pd, but it is also possible to manufacture additional metallamine complexes, e.g. Co, Ag, Ni and Pt. The number of amine groups in the complexes is usually four or six in the complexes included in the invention except in the case of Ag, where the number is two.

The invention provides a lot of gas during combustion and an increased power, faster de fl agration, is obtained if the igniters are pressed or enclosed. This is because a pressure is built up by the combustion gases which affects the burning rate of the igniters. The igniters are thus very pressure-dependent and burn relatively calmly in the powder form at atmospheric pressure. The object of the invention is therefore that it should be enclosed or pressed in its applications in order to utilize this pressure dependence.

The pyrotechnic igniters have different burning properties depending on the proportions of the components. One of these components is one of the following metal amine complexes: Cu (NH3) 4 (N3O4) 2, Zn (NI-I3) ¿, (N3O4) Z, or Pd (NH3) 4 (N3O4) 2 to the extent of 100% weight. Another component is one or more reducing agents in the form of a slag former, especially advantageous being boron, zirconium, titanium and silicon, in a range of 0-90% by weight.

The examples below show a number of advantageous igniters.

Example A number of test kits have been manufactured for the purpose of producing a pyrotechnic igniter by dry mixing the constituent components. The batches described in Examples 1-4 have then been evaluated in electric lighters (6-8)) with respect to the energy and power required for ignition. It has also been possible to hear a sharp bang in some cases, which is a sign of a rapid de fl agration. These results have been ironed with dicinate (lead dinitroresorcinate) which is a spark plug conceivable to be replaced by the invention. Dicinate de fl acts quickly in the electric lighter, but without giving a sharp bang.

The energy used to initiate dicinate in the electric lighter is 73 pJoule and the power is 12 Watts.

Example 1 An ignition kit was prepared according to the following recipe where the percentage refers to weight percent: 60% Cu (NH3) 4 (N3O4) 2 (Copper tetraamindidinitramide) 40% Zirconium type CX When voltage is applied to the electric lighter with this kit pressed in, a loud bang is heard.

The energy used to initiate the igniter in the electric lighter is 83 ploule and the power is 28 watts.

Example 2 An igniter was prepared according to the following recipe where the percentage refers to weight percent: In 60% Zn (NH3) 6 (N3O4) 2 (Zinc hexamine indidinitramide) 40% Zirconium type CX When voltage is applied to the electric lighter with this charge pressed in, a loud bang is heard.

The energy used to initiate the igniter in the electric lighter is 74 pJoule and the power is 16 Watts.

Example 3 An igniter was prepared according to the following recipe where the percentage refers to weight percent: 60% Pd (NH3) 4 (N3O4) 2 (Palladium tetraamindidinitramide) 40% Zirconium type CX 529 517 6 When protection is applied to the igniter with this charge pressed in, a loud bang is heard.

The energy used to initiate the igniter in the electric lighter is 68 ploule and the power is 12 watts.

Claims (9)

10 15 20 25 30 35 7 529 517 PATENT CLAIMS 1. A pyrotechnic igniter, preferably intended for use in starting an ignition chain, characterized by the igniter - comprises an oxidizing agent in the form of a metallamine complex coupled to one or more dinitramide ions in various compositions; and - at least one reducing agent comprising a slag former. Pyrotechnic igniter according to Claim 1, characterized in that the reducing agent is a metal powder. Pyrotechnic igniter according to claim 2, characterized in that said reducing agent comprises titanium and / or zirconium. Pyrotechnic igniter according to claim 1, 2 or 3, characterized in that the reducing agents also comprise silicon and / or carbon. Pyrotechnic igniter according to one of Claims 1 to 4, characterized in that the igniter also comprises a binder. Pyrotechnic igniter according to one of Claims 1 to 5, characterized in that the igniter also comprises at least one initiating additive in the form of one or more of its primary explosives. Pyrotechnic igniter according to one of Claims 1 to 6, characterized in that the igniter also comprises at least one initiating additive in the form of silicates. Pyrotechnic igniter according to one of Claims 1 to 7, characterized in that the igniter also comprises at least one explosive additive in the form of one or more of its primary explosives. Pyrotechnic igniter according to one of Claims 1 to 8, characterized in that the igniter also comprises at least one explosive additive in the form of one or two secondary explosives.