WO2003064352A1 - Plastic explosive composition, especially for a small-calibre priming for tunnel construction, a method for the production thereof, and a booster for using the same - Google Patents

Abstract

The invention relates to a plastic explosive composition, especially for a small-calibre priming for tunnel construction, comprising non-toxic substances which are safe to handle and have a good detonation capacity, and at least one high-explosive substance and one plastifying means. The invention also relates to a method for producing one such composition, and to a booster (10) for an above-mentioned plastic explosive composition, especially for loading tubes for bore holes and for a small-calibre priming, said booster thus representing a supercharge for tunnel construction, comprising a tubular sleeve (11) having plastic stoppers (12) at both end sections, at least one of said stoppers being penetrable by an ignitor (21) of the explosive in the sleeve (11). Said stoppers (12) seal the sleeve (11) in a fixed and tight manner, and at least one stopper (12) has a central, individually opening through opening (19) for an ignitor (21), which centres and blocks the ignitor (21), and surrounds the same in a sealing manner.

Description

 DESCRIPTION

Plastic explosive composition, in particular for a small-caliber initial ignition for tunnel construction, and a method for its production and a booster for its use

The invention relates to a plastic explosive composition, in particular for a small-caliber initial ignition for tunnel construction, with substances that are not toxic, have good handling safety and detonation ability, with at least one highly explosive explosive and a plasticizer; and a method for its production with the features of the preamble of the single method claim; as well as a booster for a plastic explosive composition, in particular for charging hoses for boreholes and a small-caliber initial ignition, i.e. intensifying charge for tunnel construction, with a tubular sleeve with a plastic plug on both end sections, at least one of which is permeable to a scale of the explosive in the sleeve is.

The worldwide trend towards larger blasting systems in the extraction of raw materials has led to the mechanization of loading work. Explosive-free explosives, such as ANFO (ammonium nitrate fuel oil) explosives and emulsion explosives are produced on mixed loading vehicles and filled or pumped directly into the boreholes by means of discharge devices. Such explosives have good blasting parameters, but in most cases they are not detonator sensitive and require vigorous initiation. A so-called impact cartridge is often used for this, which can be safely initiated with a conventional explosive ignition agent. In recent years, instead of

Impact cartridges increased the use of boosters or ignition boosters. These mostly consist of highly explosive explosives such as pentaerythritol tetranitrate (nitropenta) and / or trinitrotoluene (TNT). In the case of surface applications, the diameter of such boosters is usually 65 mm.

Now loose explosives, in powder form or as emulsions, are also being used to a greater extent in the underground area, especially in tunnel construction. The borehole diameters in tunnel construction are, however, much smaller than in surface blasting operations in order to be able to carry out targeted blasting operations. They are usually in the range of 36 to 50 mm. The loose explosives are blown or pumped into the boreholes using a charging hose. The charging hose understandably has a smaller diameter than the borehole, so that there is no jamming / clogging when the charging hose is introduced into the borehole. The outer diameter of the charging hose is usually between 25 and 27 mm, the inner diameter 19 mm. In charging technology in tunnel construction, the booster is provided with the explosive detonating agent, inserted into the charging hose and thus brought into the borehole with the charging hose. The diameter of the booster must therefore be smaller than the inside diameter of the charging hose. The booster must cause a small-caliber initial ignition, i.e. represent a small-caliber boosting charge.

Known booster consist of a tubular sleeve, whose ends are sealed with plugs, one of said plug openings, such as a slot for ease of imports of the explosive and a scale on ^¬ has. Explosive components can escape from these openings and liquid can enter, as a result

Explosives can reach the inner walls of the packaging, ie the inner walls of bags or boxes for boosters, which can lead to problems from a safety and occupational hygiene perspective. The slot also serves to introduce the tinder into the

Explosive mass in the booster, which only projects loose, at least without any further attachment and positioning into the explosive mixture. In the case of a solid explosive mixture, a preformed cavity for the scale is usually to be incorporated into the explosive mixture, but this entails the risk that the scale is too loose in the cavity or vice versa for jamming when the scale is introduced into the cavity of the Booster is coming. When the scale is introduced, the explosive mixture also swells out of the booster, which also leads to undesired contamination. The booster prepared in this way can only be equipped with scale from one side and consequently leads to complex, because only upright handling, which contains the risk of loss of scale and / or the explosive mixture. An exact, because extremely effective, central alignment of the scale, which varies slightly in diameter per manufacturer, is only possible with careful Handling and alignment possible during the removal of the tinder. This means that the person authorized to blast can only adjust this by hand.

Several compositions for such boosters are known in the literature. Already in 1929, Stettbacher (Urbanski, T., Chemistry and Technology of Explosives, VEB Deutscher Verlag für Grundstoffindustrie, Leipzig, 1964, Volume III, page 239) described explosives which consist only of nitropenta and nitroglycerin and which he called pentrinite , Depending on the quality of the nitropentas (crystal size) and the composition, a plastic mixture can be obtained, otherwise nitroglycerine will run out of the mixture after a few days. Leakage of nitroglycerin from an explosive mixture always represents a serious lack of quality and safety, since nitroglycerin has an impact energy of 0.2 J. After the z. An explosive substance may only be requested if, for example, valid German and also European transport regulations, if its impact energy is greater than 2 J and its friction energy is greater than 80 N. Stettbacher also proposed a replacement for dynamite, which only consists of nitroglycerin, nitrocellulose and

Nitropenta exists. Investigations have shown that this explosive is characterized on the one hand by a very high detonation speed (> 8000 m / s), on the other hand the impact energy required to trigger the explosion is only 7.5 J (when adding

Potassium nitrate even 5 J), the required friction energy is only 180 N. Gelatinous ammonium nitrate explosives with a high nitroglycerin and / or nitroglycol content can also be used for boosters. Since the critical diameter for gelatinous ammonium nitrate explosives, depending on the composition, is between 15 and 16 mm (without inclusion), gelatinous ammonium nitrate explosives are additionally provided with highly explosive explosives for such applications in order to maintain the required sensitivity to the detonator capsule. These explosive compositions are also very sensitive to impact. The impact sensitivity required to trigger the detonation is 7.5 J. A further disadvantage of these explosive mixtures is the effect of "aging". The fine particles introduced by the manufacturing process disappear after prolonged storage

Luftblaschen. The inner surface of the explosive composition is reduced and thus also its sensitivity (see Ullmann's Encyclopedia of Technical Chemistry, Verlag Chemie GmbH, Weinheim, Volume 21).

Cast or pressed explosive compositions made of TNT or nitropenta or mixtures of both are also used for boosters.

Newer plastic explosives contain hexogen

/ Octogen / nitropenta mixtures and a plasticizer (e.g. styrene-butadiene copolymer).

Many of the explosive compositions listed contain nitroglycerin and / or nitroglycol as a component. These substances are classified as "very toxic" according to the applicable legislation on hazardous substances. The TNT component is also rated as "toxic". The use of these substances, especially in the underground area, is viewed lematically. The known explosives compositions are therefore unsuitable for satisfactorily solving the problem of the present invention.

As already mentioned, the known boosters are not tight and complex to handle and are strongly influenced by the physical properties of the explosive mixtures, with the result that cavities for the scale also undergo changes that are difficult to calculate when the explosive mixtures change. The known boosters are consequently not very suitable for satisfactorily achieving the object of the present invention.

The object of the present invention is to create a plastic explosive composition, in particular for a small-caliber initial ignition, that is to say an intensifying charge in tunnel construction, which contains no toxic substances, has a small critical diameter and nevertheless has improved handling safety (higher impact and friction energy) than previously to provide known explosives compositions and a method for their production.

Furthermore, it is an object of the present invention to provide a booster for a plastic explosive composition, in particular for charging hoses for boreholes and a small-caliber initial ignition, i.e. intensifying charge in tunnel construction, which has none of the disadvantages mentioned in the prior art in connection with the plastic explosive composition according to the application Transport and application safe, as well as easy to use, and ensures optimal and secure positioning of the scale in the booster. According to the invention, the task with regard to the plastic explosive composition is achieved in that the composition consists of

50-80% by weight of pentaerythritol tetranitrate and / or hexogen and / or octogen as a highly explosive explosive, 15-30% by weight of dibutyl phthalate and / or diamyl phthalate as plasticizer,

0.5 - 3 wt .-% nitrocellulose, up to 10 wt .-% inorganic nitrates, such as sodium and / or potassium nitrate, and small additions of coloring and inert substances

consists; and with regard to the method for its production by the characterizing features of the single method claim.

The task regarding the booster is solved according to the invention by the characterizing features of the independent claim relating to the booster.

Advantageous embodiments of the invention result from the subclaims.

According to the invention, the composition consists of 50 to 80 parts by weight of a highly explosive explosive such as pentaerythritol tetranitrate and / or hexogen and / or octogen, 15 to 30 parts by weight of a plasticizer such as dibutyl phthalate and / or diamyl phthalate, nitrocellulose in the range of 0.5 to 3%, inorganic nitrates such as sodium and / or potassium nitrate up to 10% and small amounts of coloring and inert substances.

The explosive composition is primarily intended as a small-caliber initial charge (diameter 15 mm), also known as a scale booster, for the safe ignition of loose explosives. Also powdery or emulsions.

Dibutyl phthalate and diamyl phthalate are used in the explosives industry, especially in the manufacture of smokeless powders, as plasticizers (cf. Ullmann's Encyclopedia of Technical Chemistry, Verlag Chemie GmbH, Weinheim, Volume 20, p. 102). These substances therefore surprisingly contribute significantly to the composition according to the invention.

The explosive ability of an explosive depends on its ignitability and the ability to transmit the detonation.

According to DIN 20163 "Explosive technology, November 1994 edition", a comparative size for the ignition sensitivity of an explosive is defined as ignitability, which detects the required detonator strength or the amount of explosives of a detonator. The "critical diameter" is according to DIN 20163 "Explosive technology", the Diameter of a charging column below which the detonation is no longer reliably passed. An explosive with high detonation ability therefore generally requires a small detonator size and has a small critical diameter. The test is generally carried out, for example, as follows: a detonator or an electrical scale contain 0.6 g nitropenta as secondary charge Current (including German) regulations, the testing of an explosive for detonator sensitivity is carried out with a test scale that has a lower secondary charge. Such test scale contains 0.375 g or only 0.250 g nitropenta. Test scale with 0.450 g nitropenta is also used internationally.

According to the invention, dibutyl phthalate and diamyl phthalate are excellent substitutes for

Nitroglycerin / nitroglycol used to overcome the disadvantages already mentioned - toxicological (very toxic) and safety properties. Both substances are classified as "harmful to health" according to the applicable legislation on hazardous substances, but not as "very toxic" or "toxic". The non-toxic dibutyl phthalate used in the application according to the invention, which is in any case classified as not "very toxic" or "toxic", also becomes referred to as diisobutyl phthalate and is classified as only "environmentally hazardous" according to hazardous substances law.

According to the application, it is advantageously proposed that in order to achieve a desired high detonation speed of at least 6260 m / s, an impact energy of at least 15 J and a friction energy of at least 360 N and a critical diameter of at least 15 mm and for charging hoses less than their inner diameter, recipes according to the registration in the table below

to be mixed into a gelatin. As already mentioned, dibutyl phthalate and diamyl phthalate have a desensitizing effect on the explosive composition. The handling safety is significantly improved in the above recipes according to the application and the recipe according to the invention. Impact and friction energy are higher than with known explosive compositions. On the other hand, the explosive composition has a small critical diameter, which is desired for so-called boosters.

It is also advantageously provided that the constituents of dibutyl phthalate and / or diamyl phthalate form a gelatin with nitrocellulose when mixed, which together with nitropenta and / or hexogen and / or octogen and sodium nitrate and / or potassium nitrate and the coloring and inert substances is a plastic, homogeneous mass. As a result, the explosive mixture is particularly easy to handle and can be easily filled into extremely thin plastic sleeves, which can be easily moved in the thin loading hose of perhaps only up to 19 mm inside diameter. The explosive mixture is mainly filled into rigid, cylindrical plastic sleeves, which are sealed on both sides with plastic plugs. The plastic plugs have a star-shaped predetermined breaking point, so that the tinder can be imported very easily and easily.

It is also advantageously provided that the explosive mixture has a consistency with a plasticity, which causes simple insertion into plastic sleeves which can be closed on both sides, and also facilitates the introduction of a scale into this scale enhancer and ensures that the scale is held therein. The explosive composition thus has a plastic consistency, which makes it easier to import the scale. The hold of the scale in the plastic sleeve (the booster) is much better with a plastic explosive composition than with cast or pressed explosive compositions (TNT / Nitropenta).

The inventive method, according to which a composition

15-30% by weight of dibutyl phthalate and / or diamyl phthalate as plasticizer, and 0.5-3% by weight of nitrocellulose, is mixed until a gelatin forms and then into this gelatin

50-80% by weight of pentaerythritol tetranitrate

(Nitropenta) and / or hexogen and / or octogen as a highly explosive explosive, and b s to 10 wt .-% inorganic nitrates, such as sodium and / or calcium nitrate, and - small amounts of dyes and inert substances

added until a plastic, homogeneous mass is formed by mixing, supports in particular the mechanization of the loading work on site, ensures a high safety standard and leads to long-term stability

Explosives composition, in addition to the advantages that have already been described in connection with the composition.

The object with regard to the booster for a plastic explosive composition according to the invention is achieved according to the invention in that the plugs close the sleeve tightly and tightly and at least one plug has a central, individually opening passage opening for a tinder which centers the tinder and sealingly encloses.

Surprisingly, it has been shown that, despite the stopper being initially closed, the scale can be introduced particularly easily and precisely into a plastic explosive mass. A combination of the plastic explosive mass with the booster according to the invention virtually automatically ensures the safe and fresh fit of the scale in the sleeve with extensive tightness even with inserted scale. This means that the plastic explosive mass is securely and tightly packed in the sleeve due to the plugs on both sides, so that neither explosives or explosive components can get outside and air humidity inside. As already stated, known plugs have openings, e.g. B. slots for easier insertion of the scale, from which explosives and / or liquid can escape / enter and the environment is contaminated. This also leads to safety-related problems.

It is advantageously provided that the explosive mixture only incompletely fills the inner volume of the closed sleeve. This reliably prevents plastic explosive mass from swelling out when the second stopper and the scale are inserted.

It is also advantageously provided that the volume remaining in the closed sleeve corresponds at least to the volume of the scale to be inserted and a stopper. This can prevent various effects. It has been shown that this can prevent the opposite stopper from being pressed out when the second stopper is inserted, as well as when the scale is inserted into one of the stoppers. Experience has shown that a few percent of the full volume is sufficient as a free space.

According to the application, it is also provided that the sleeve is rigid and cylindrical and the plug is sealed and protrude firmly with a section into the interior of the sleeve and have an outer flange, the outer diameter of which corresponds to that of the sleeve. This enables safe and predictable handling of the plugs even in robust on-site operation. Because the flange can only be used to print each stopper to a predetermined depth in the sleeve. The plugs are either easy to press in or the like. and / or provided with adhesive or the like and thus virtually automatically seal the sleeve. Since the flange has the same outer diameter as the sleeve, the mobility of the booster in the charging hose is not restricted.

According to the application, it is also provided that everyone

Plug is elastic and circularly symmetrical and the outer flange, together with a central section protruding into the sleeve, has a shape similar to a thimble, with a bottom protruding into the sleeve, which forms the passage opening for the scale. This simple measure makes handling much easier, especially when inserting a scale. The foxglove forms, so to speak, a target funnel for the tinder, which leads the tinder safely to the passage opening.

It is also advantageously provided that the bottom of the stopper is oriented orthogonally to the longitudinal extension of the sleeve and has a smaller wall thickness with a predetermined breaking point radiating from the center. As a result, the passage opening, which is closed in itself, can always be broken open starting in the center, without the need for special dexterity or exertion of force. According to the application, it is also provided that one or both surfaces of the base are provided in a radial shape with straight lines of reduced cross-section, which form the predetermined breaking point (s) and, like a cake, at least three identical tabs (pieces). As a result, the manufacturing outlay is kept low, since the predetermined breaking point can be produced even from radially running lines of smaller cross-section and three pie-shaped tabs are sufficient to form a star-shaped passage opening and to be able to achieve all the advantages according to the application.

According to the application, it is further provided that the tabs of the star-shaped passage opening center the inserted scale due to its predeterminable elasticity, fix it and seal the sleeve at the same time. As a result, the inserted tinder is always inserted into the middle of the sleeve and at the same time secured by the tabs that form. The star-shaped passage opening is only opened as far as necessary, i.e. according to the diameter of the scale. The tabs that form form a snug fit and therefore close to the scale. According to the application, the sleeve is sealed with and without scale. An accidentally inserted scale can also be removed again because the elasticity of the tabs allow this and they relax after removal and close the passage opening again.

Furthermore, it is advantageously provided that the sleeve and the stopper are made of polyethylene or polypropylene. This allows the materials to be used. which are easy to work with, ensure safe interaction with each other and optimally meet the gliding requirements in the charging hose, with an outer diameter corresponding to the critical diameter and, if necessary, smaller than the inner charging hose diameter.

It is also advantageously provided that the sleeve meets the requirements of an extrusion process and the plug meets those of an injection molding process.

This makes it possible to produce the booster according to the application in an economically attractive manner.

Example 1 28, 3% dibutyl phthalate and 1.7% nitrocellulose are mixed at a estimated 100 parts by weight until a gelatin forms. Now 65% nitropenta, 5% potassium nitrate and small amounts of coloring and inert substances are added until a homogeneous plastic mass is formed.

Explosive parameters:

Initiation capability: Prufzunder PETN 0.450 g

(Diameter: 15 mm) detonation speed: 6400 m / s (diameter: 15 mm)

Impact energy: 20 J

Rubbing energy: 360 N.

Example 2 25% dibutyl phthalate and 1% nitrocellulose are mixed at a estimated 100 parts by weight until a gelatin forms. Now 65% nitropenta, 9% potassium nitrate and small amounts of coloring and inert Fabrics added until a homogeneous plastic

Mass forms.

Explosive parameters:

Initiation ability: Prufzunder PETN 0.250 g

(Diameter: 15 mm) Detonation speed: 6260 m / s

(Diameter: 15 mm) impact energy: 20 J

Rubbing energy: 360 N.

Example 3

With 100 parts by weight estimated, 20% dibutyl phthalate and 1% nitrocellulose are mixed until a gelatin forms. Now 75% nitropenta, 4% potassium nitrate and small amounts of coloring and inert substances are added until a homogeneous plastic mass is formed.

Explosive parameters: initiation ability: test screed PETN 0.250 g (diameter: 15 mm)

Detonation speed: 6430 m / s

(Diameter: 15 mm) impact energy: 15 J

Friction energy:> 360 N

Example 4

At 100 parts by weight, 20% dibutyl phthalate and 1% nitrocellulose are mixed until a gelatin forms. Now 79% nitropenta, 0% potassium nitrate and small amounts of coloring and inert substances are added until a homogeneous plastic mass is formed. Explosive parameters: Ability to initiate: Prufzunder PETN 0.250 g

(Diameter: 15 mm)

Detonation speed: 6900 m / s

(Diameter: 15 mm) impact energy: 17.5 J

Friction energy:> 360 N

Example 5

At an estimated 100 parts by weight, 21% dibutyl phthalate and 1.5% nitrocellulose are mixed until a gelatin forms. Now 68.5%

Nitropenta, 9% potassium nitrate and small amounts of

Dyes and inert substances are added until a homogeneous plastic mass is formed. Explosive parameters:

Ability to initiate: Prufzunder PETN 0.250 g

(Diameter: 15 mm)

Detonation speed: 6475 m / s

(Diameter: 15 mm) impact energy: 15 J

Rubbing energy: 360 N.

Example 6

At an estimated 100 parts by weight, 21% dibutyl phthalate and 1.0% nitrocellulose are mixed until a gelatin forms. Now 70.0%

Nitropenta, 8% potassium nitrate and small amounts of

Dyes and inert substances are added until a homogeneous plastic mass is formed. Explosive parameters:

Ability to initiate: Prufzunder PETN 0.250 g

(Diameter: 15 mm)

Detonation speed: 6750 m / s

(Diameter: 15 mm) Impact energy: 17.5 J

Friction energy:> 360 N

The recipes are characterized by an extremely high impact energy and the other advantages already mentioned, in the case of explosive properties that correspond to those formed with toxic substances.

An exemplary embodiment of the present invention, in particular with regard to the booster for a plastic explosive composition, in particular for charging hoses for boreholes and a small-caliber initial ignition for tunnel construction, is explained in more detail below with the aid of a drawing. Gut shows:

Fig. 1 is a view of a booster according to the invention, partly in section, Fig. 2 is a plan view of the booster acc. 1 along the line A-A,

Fig. 3 shows a schematically illustrated plug of the

Boosters in side view, and Fig. 4 is a plan view of the booster acc. Fig. 1 corresponding to the line B-B with the passage opening broken.

1 shows a partially sectioned view of a booster 10 according to the application, which has a sleeve 11 made of plastic and two plugs 12, also made of plastic. The plugs 12 have an outer one

Flange 13 with an outer diameter that corresponds to that of the sleeve 11. The sleeve 11 and the plug 12 have a circular cylindrical basic shape and are firmly and tightly connected to one another. This connection follows over a circular cylindrical portion 14 which is integrally connected to the flange 13 of the plug 12 and z. B. protrudes a few millimeters into the sleeve 11 and is firmly and tightly engaged with the inner wall 15 of the sleeve 11. This connection can be non-positive and / or by using glue or heat. Although these are the preferred connections, screwed or other connections such as snap and snap connections are of course also possible. With regard to the plug 12 shown at the bottom in FIG. 1, the flange 13 has a centrally arranged, thimble-shaped (cylindrical) section 16 projecting into the sleeve 11 with a bottom 17 and a radial predetermined breaking point 18 indicated in FIG. 1. The flange 13 is 4 in the area of the thimble-shaped section 16, so that a scale 21 shown only as a cross-sectional area in FIG. 4 can be pressed with its end face against the bottom 17 and thus against the predetermined breaking point 18 and breaks through it in a predefinable manner. The scale can also fill the entire passage opening 19 shown in a star shape, that is to say the bottom 17. The predetermined breaking point (s) 18 are formed by lines with a cross-sectional reduction that run radially (radially) from the center and that extend into one of the surfaces, eg. B. the outer surface of the bottom 17 is introduced. The flange 13 also prevents the plug 12 from being pressed in while the passage opening 19 is being broken through.

FIG. 2 shows a plan view corresponding to line AA in FIG. 1. The circularly symmetrical shape of the plug 12 and the flange 13 as well as the base 17 with radially, radially running predetermined breaking points can be seen. len 18 provided, two of which are shown. These form a total of six pie-shaped sections, better known as tabs 20. The star-shaped passage opening 19 thus formed is arranged deep in the thimble-shaped section 16 and thus facilitates the threading of the scale 21 in a funnel-like manner. For the rest, reference is made to the description of FIG. 1.

3 schematically shows a side view of a stopper 12 with flange 13, cylindrical section 14 for fastening the stopper 12 in the sleeve 11 and the thimble-shaped section 16 shown in broken lines. In order to be able to insert this stopper 12 into the sleeve 11 with the passage opening 19 still closed Without the further plug 12, which closes the other end of the sleeve 11, being pushed out again, it is provided according to the application that the sleeve 11 is only partially filled with plastic explosive. According to the invention, the sleeve 11 can also be filled with plastic explosive only to such an extent that explosive is not reliably printed out while the scale 21 is being removed. Experiments have shown that with normal scale the remaining volume is about 1 cm with a z. B. corresponds to 15 mm diameter booster 10, or about a filling of only 90 to 95% of the booster 10th

FIG. 4 shows a top view of FIG. 3 along the line BB. The representation corresponds to the gem. Fig. 2 on the description of which reference is also made. However, the passage opening 19 is broken open and is therefore shown in a star shape, with an inner cross section that can correspond to that of a scale 21. The scale 21 can be larger and smaller have a cross-section. The radially arranged lines of the predetermined breaking points 18 have formed elastic tabs 20 which, with their angular tips, determine the available diameter of the through opening 19 and, due to their elastic material tension, hold the scale 21 in the middle and secure it against being pulled out. With a suitable choice of material, the predetermined breaking points scarcely tear open beyond what is absolutely necessary and the tabs 20 nestle against the scale 21, so that even in the case of the scale 21 inserted, the passage opening 19 is virtually sealed.

In summary, it can be stated that the radial predetermined breaking point 18 of the stopper 12 is designed such that it is tight on the one hand and thus prevents the escape of explosives or components thereof, and on the other hand is thin and has a special construction that allows the scale 21 to be easily inserted allows. When the scale 21 is imported, the predetermined breaking points 18, forming tabs 20, are broken open. The scale 21 can easily be introduced into the plastic explosive mass according to the invention and is thus fixed securely and centrally in the sleeve 11 by the combination of the elastic explosive mass with the plastic flaps 20. The tabs 20 further make it difficult for the scale 21 to slip out. Since the plug 12 is identical on both sides, the scale 21 can be inserted into the sleeve 11 from each side. The booster 10 therefore does not have to be picked up by the person authorized to blast in a particular direction in order to be able to insert the scale 21. The advantage of a plastic explosive mass in the case of such a booster 12 compared to a cast, solid explosive mixture is furthermore that there is no need for a preformed cavity in the explosive for the introduction of the scale 21. A preformed cavity always runs the risk of the scale 21 sitting too loosely or jamming when the scale 21 is inserted. The volume of the sleeve 11 is only filled to 90 to 95% with the plastic explosive mass (on one side of the sleeve 11 remain about 10

Millimeters empty, with a diameter of the sleeve 11 in the centimeter range). This cavity is u. a. sufficient for the introduction of the scale 21 without the stopper 12 arranged on the opposite side of the sleeve 11 being pushed out of the sleeve 11. The sleeve 11 and the plug 12 are made of plastics such as polyethylene and polypropylene. The sleeve 11 preferably in the extrusion process and the plug 12 in the injection molding process, which leads to a good economic price-performance ratio.

The features of the invention disclosed in the above description, in FIGS. 1, 2, 3 and 4 as well as in the claims can be essential both individually and in any combination for realizing the invention in its various embodiments.

Claims

PATENTAN S SPEECHES

1. Plastic explosive composition, especially for a small-caliber initial ignition for the

Tunnel construction, with substances that are not toxic, have good handling safety and detonation ability, with at least one highly explosive explosive and a plasticizer, characterized in that the composition consists of

50 - 80% by weight of pentaerythritol tetranitrate and / or hexogen and / or octogen as a highly explosive explosive, - 15 - 30% by weight of dibutyl phthalate and / or diamyl phthalate as plasticizer, 0.5 - 3% by weight of nitrocellulose, up to 10 % By weight of inorganic nitrates, such as sodium and / or potassium nitrate, and - small additions of coloring and inert substances

consists .

2. Explosive composition according to claim 1, characterized by a critical diameter of at least 15 mm, a detonation speed of at least 6260 m / s, an impact energy of at least 15 J and a friction energy of at least 360 N.

3. explosives composition according to claim 2, characterized by 65% by weight of nitropenta and / or hexogen and / or octogen,

28.3% by weight of dibutyl phthalate and / or diamyl phthalate, 1.7% by weight of nitrocellulose,

5% by weight sodium and / or potassium nitrate, and small additions of coloring and inert substances.

4. explosives composition according to claim 2, characterized by

65% by weight of nitropenta and / or hexogen and / or

Octogen, - 25 wt .-% dibutyl phthalate and / or

Diamylphtalat,

1.0% by weight nitrocellulose,

9% by weight sodium and / or potassium nitrate, and small additions of coloring and inert substances.

5. explosives composition according to claim 2, characterized by

- 75% by weight of nitropenta and / or hexogen and / or

HMX,

20% by weight of dibutyl phthalate and / or

Diamylphtalat,

1.0 wt .-% nitrocellulose, - 4 wt .-% sodium and / or potassium nitrate, and small additions of coloring and

Inert materials.

6. explosives composition according to claim 2, characterized by

79% by weight of nitropenta and / or hexogen and / or octogen,

20% by weight of dibutyl phthalate and / or diamyl phthalate,

1.0% by weight nitrocellulose,

0% by weight sodium and / or potassium nitrate, and - small additions of coloring and inert substances.

7. explosives composition according to claim 2, characterized by

68.5% by weight of nitropenta and / or hexogen and / or octogen,

21% by weight of dibutyl phthalate and / or diamyl phthalate, 1.5% by weight of nitrocellulose,

9% by weight sodium and / or potassium nitrate, and small additions of coloring and inert substances.

8. explosives composition according to claim 2, characterized by

70% by weight nitropenta and / or hexogen and / or octogen, 21% by weight dibutyl phthalate and / or diamyl phthalate, 1.0% by weight nitrocellulose, 8% by weight sodium and / or potassium nitrate, and low additions of dyes and inert substances.

9. Explosive composition according to one or more of the preceding claims, characterized in that the constituents of dibutyl phthalate and / or diamyl phthalate form a gelatin with nitrocellulose, which together with nitropenta and / or hexogen and / or octogen and sodium nitrate and / or potassium nitrate and the dyes and inert substances are a plastic, homogeneous mass.

10. Explosive composition according to one or more of the preceding claims, characterized by a consistency with a plasticity, which brings about simple insertion into plastic sleeves which can be closed on both sides, and also facilitates the insertion of a scale into this scale enhancer and ensures that the scale is held therein.

11. The method for producing the plastic explosive composition according to claim 1, in particular for a small-caliber initial ignition for tunnel construction, with substances that are non-toxic, have good handling safety and detonability, with at least one highly explosive explosive and a plasticizer, characterized in that a composition out

15-30% by weight of dibutyl phthalate and / or diamyl phthalate as plasticizer, and 0.5-3% by weight of nitrocellulose, is mixed until a gelatin forms and then into this gelatin

50-80% by weight pentaerythritol tetranitrate

(Nitropenta) and / or hexogen and / or octogen as a highly explosive explosive, and up to 10% by weight of inorganic nitrates, such as sodium and / or calcium nitrate, and - small amounts of coloring and inert substances

be added until a plastic homogeneous mass is formed by mixing.

12. Booster for a plastic explosive composition according to claim 1, in particular for charging hoses for boreholes and a small-caliber initial ignition, ie intensifying charge for tunnel construction, with a tubular sleeve (11) with a plug (12) made of plastic at both end sections, at least one of which is permeable for a scale (21) of the explosive in the sleeve (11), characterized in that the plugs (12) close the sleeve (11) tightly and tightly and at least one plug (12) is a central, individually opening through opening (19) for a tinder (21), which centers the detonator (21), locks and seals.

13. Booster according to claim 12, characterized in that the explosive mixture has the inner volume of the closed sleeve (11) with a diameter only partially filled according to the critical diameter.

14. Booster according to claim 13, characterized in that the free volume in the closed sleeve (11) corresponds at least to the volume of the scale (21) to be inserted and a stopper (12).

15. Booster according to claim 14, characterized in that the sleeve (11) is rigid and cylindrical and the plugs (12) protrude tightly and firmly with a portion (14) inside the sleeve (11) and an outer flange (13 ) have, whose outer diameter corresponds to that of the sleeve (11).

16. Booster according to claim 15, characterized in that each stopper (12) is elastic and circularly symmetrical and the outer flange (13) together with a central section (16) projecting into the sleeve (11) has a shape similar to a thimble, with a bottom (17) which projects into the sleeve (11) and which forms the through opening (19) for the scale (21).

17. Booster according to claim 16, characterized in that the bottom (17) of the stopper (12) is oriented orthogonally to the longitudinal extension of the sleeve (11) and has a smaller wall thickness with a predetermined breaking point (18) radially applied from the center.

18. Booster according to claim 17, characterized in that one or both surfaces of the bottom (17) are radially provided with straight lines of reduced cross-section, which form the predetermined breaking point (s) (18) and similar to a cake, at least three identical tabs (20) (pieces).

19. Booster according to claim 18, characterized in that the tabs (20) of the star-shaped passage opening (19) center the inserted scale (21) due to their predeterminable elasticity, fix and seal the sleeve (11) at the same time.

20. Booster according to one or more of the preceding claims 12 to 19, characterized in that the sleeve (11) and the plug (12) consist of polyethylene or polypropylene.

21. Booster according to one or more of the preceding claims 12 to 19, characterized in that the sleeve (11) meets the requirements of an extrusion process and the stopper (12) those of an injection molding process.