RU2203487C1 - Test set to detect and identify explosives - Google Patents

Abstract

FIELD: study or analysis of non-biological materials by chemical methods. SUBSTANCE: invention refers to detection and identification of explosives with the use of chemical indicators outside of laboratory. Test set to detect and identify explosives includes samplers and three reagents-identifiers of explosives for three groups of explosives. Reagents are applied in preliminarily metered quantities on their samplers, each sampler being placed in separate sealed container. Sampler is made of porous (woven or non-woven) material. Sealed container comes in the form of two interjoined sheets of chemically resistant polymer material, produced predominantly on base of mylar with space for sampler. EFFECT: increased reliability of detection and identification of explosives of three groups outside of laboratory. 4 cl, 2 dwg

Description

 The invention relates to the field of research or analysis of non-biological materials by chemical methods, specifically, with the help of chemical indicators and is intended to identify and identify explosives (EX) in off-laboratory conditions.

 A known set of tests for identifying and identifying explosives, containing a sampler in the form of filter paper and two reagents identifying explosives of sequential use for two groups of explosives (group I - polynitroaromatic compounds: trinitrotoluene, picric acid, etc.; group II - esters and nitroamines : TEN, hexogen, nitroglycerin, etc.) (patent EP 0264252 B1, MKI G 01 N 31/22, 1986). Each reagent identifier BB is placed in a separate aerosol can, tube or dropper. The disadvantage of the kit is the low reliability of the detection and identification of explosives of group II, due to the difficulty of the normal sequential application of explosives identifiers of explosives from these packages onto the sampler with a sample of the test substance and the possibility of erosion on the surface of the sampler in off-laboratory conditions, as well as the limited range of detectable explosives, which did not include ammonium nitrate explosives (ammonites, ammonals) and black powder.

 A set of tests for detecting and identifying explosives is known, which contains a sampler in the form of filter paper or sticky-layer paper and three aerosol cans of sequential use with reagent-identifiers of explosives for each of the above two groups of explosives, supplemented by a group of ammonium nitrate explosives and black powder ( Group III) (The ALLEN Internal Security Equipment catalog. - PW Allen & Co. Ltd., p.21) (the closest analogue). The disadvantage of the kit is the low reliability of the identification and identification of explosives of the II and, especially, of the III group, due to the difficulty of the normalized sequential application of explosive identifiers of the explosives from aerosol cans to the sampler with a sample of the test substance and the possibility of its erosion on the surface of the sampler in non-laboratory conditions. The latter circumstance is especially important when working with micro quantities of explosives at the level of the limit of their detectability.

 The objective of the present invention is to increase the reliability of detection and identification of explosives of all three groups in the field.

 The problem is solved in that in the test kit for identifying and identifying explosives, containing samplers and three reagent identifiers of explosives for three groups of explosives, each reagent identifier of explosives is preliminarily applied in metered quantities to its own sampler, each of which is placed in a separate sealed container made of two sheets of chemically resistant polymer material connected together, mainly based on lavsan with a cavity under the sampler. In this case, the sampler is made of porous (woven or non-woven) material; reagent identifier of group I BB (polynitroaromatic compounds such as trinitrotoluene) contains 10-40% water, 20-60% dimethylformamide, 10-30% dimethyl sulfoxide, 1-10% alkali metal hydroxide, 0.1-1% sulfanilic acid; reagent-identifier of group II explosives (esters and nitroamines such as RDX, TEN, HMX) contains a 2-5% aqueous solution of hydrochloric acid, 0.5-3% alpha-naphthylamine; Group III explosive identifier reagent (ammonium nitrate explosives and black powder) contains dry zinc dust.

 The analysis of the claimed invention showed that an increase in the reliability of detection and identification of explosives of all three groups in off-laboratory conditions is achieved by preliminary industrial application in metered quantities of each explosive identifier of the explosive to its own samplers, each of which is placed in a separate sealed container made of two sheets of chemically resistant polymer material connected together, mainly based on lavsan with a cavity under the sampler. This provides, under off-laboratory conditions, a guaranteed dosed sequential effect of explosive identifiers of explosives on the sample of the test substance and the absence of erosion.

 In FIG. 1 (axonometric projection) and 2 (sectional cross-sectional view) shows one of the three containers included in the test kit.

 The container is made of two interconnected sheets 1 of a chemically resistant polymer material mainly based on lavsan with a cavity under the sampler 2 with a reagent identifier BB applied to it.

 When performing work on the identification and identification of explosives, the operator opens a container with a sampler 2, on which a reagent identifier of explosives of group I is applied. Using a sampler 2, a sample of the analyte is taken from this container. After 5-20 s, in the presence of traces of Group I explosives, the following staining of sampler 2 can be observed: brown (trinitrotoluene), blue (2,4-dinitrotoluene), yellow (picric acid), orange (tetrile), light brown (2- dinitrobenzene) or raspberry (3-nitrobenzene). After completing this operation, the operator opens the second and third containers and for several seconds sequentially presses the samplers 2 from these containers to the sampler 2 from the first container. After 5-20 s, in the presence of traces of Group II explosives (RDX, HMX, PETN, explosives based on nitroglycerin), the second sampler 2 is painted in raspberry color. In the presence of traces of Group III explosives (ammonium nitrate explosives and black powder), the third sampler 2 is also painted in raspberry color. When working with one sample of the analyte, it is possible to stain several samplers 2, which indicates the presence of mixed explosives (for example, alloys of trinitrotoluene with hexogen, ammonium nitrate or tetryl).

 Thus, the proposed set of tests for identifying and identifying explosives can significantly improve the reliability of identifying and identifying explosives of all three groups in off-laboratory conditions.

Sources of information
1. Patent EP 0264252 B1, MKI: C 01 N 31/22, 1986.

 2. The ALLEN Internal Security Equipment catalog. - P.W. Allen & Co. Ltd., p.21.

Claims (5)

 1. A set of tests for identifying and identifying explosives, containing samplers and three explosive identifier reagents for three groups of explosives (BB), characterized in that each explosive identifier reagent is pre-applied in metered quantities to its own sampler, each of which It is placed in a separate airtight container made of two sheets of chemically resistant polymer material connected together, mainly based on lavsan with a cavity under the sampler.  2. A set of tests for identifying and identifying explosives according to claim 1, characterized in that the sampler is made of porous material.  3. A set of tests for the identification and identification of explosives according to paragraphs. 1-3, characterized in that the reagent identifier of explosives of group I (polynitroaromatic compounds such as trinitrotoluene) contains 10.. .40% water, 20 ... 60% dimethylformamide, 10 ... 30% dimethyl sulfoxide, 1 ... 10% alkali metal hydroxide, 0.1 ... 1% sulfanilic acid.  4. A set of tests for the identification and identification of explosives according to paragraphs. 1-4, characterized in that the reagent identifier of explosives of group II (esters and nitroamines such as RDX, TENA, HMX) contains 2 ... 5% aqueous hydrochloric acid, 0.5 ... 3% alpha-naphthylamine .  5. A set of tests for the identification and identification of explosives according to paragraphs. 1-5, characterized in that the reagent identifier of explosives of group III (ammonium nitrate explosives and black powder) contains dry zinc dust.

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