RU2772413C1 - Impression detonator and its manufacturing method - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: invention relates to initiation means designed to initiate detonation of explosive charges. An impression detonator includes a shell, into which a puncture composition, initiating and combat charges are pressed. A composition consisting of silicon 45±1.5% and lead minium 55±1.5%, granulated on water, is used as the puncture composition. As the initiating charge, the explosive NKT – perchlorate (5-nitrotetrazolato-N²) of pentamincobalt (III) – is used. The puncture composition is pressed into the shell at a pressure of more than 400 MPa, the initiating charge is at a pressure from 25 to 50 MPa, the height of the pressing of the puncture composition is at least 2 mm, the height of the initiating charge is at least 3 mm. In a warhead, the explosive NKT – perchlorate (5-nitrotetrazolato-N²) pentamincobalt (III) – or high explosives, such as octogen, hexogen, hexanitrostilbene, are used. In the manufacture of the puncture composition, ultrasonic treatment is carried out in a volatile solvent – acetone – in a cavitation mode at a temperature of no more than 70% of the boiling point of the volatile solvent. First, ultrasonic treatment of silicon powder is performed for a time of at least 10 minutes. Then, lead minium powder is added to the resulting suspension, and silicon and lead minium are dispersed and mixed by ultrasonic treatment for 10-15 minutes with a gradual decrease in ultrasound power.

EFFECT: invention is aimed at an increase in the safety of the detonator, frost and heat resistance, and reduction in sensitivity to puncture.

4 cl, 1 dwg, 3 tbl

Description

SUBSTANCE: invention relates to means of initiation intended for initiation of detonation of explosive charges during perforating and blasting operations in oil and gas wells, as well as in pyroautomatic systems and special equipment in a wide temperature range.

A typical design of a detonator cap (CA) with a prick action is a shell, for example, a cap, into which a prick composition, initiating and warhead explosives are pressed under a certain pressure. To protect against external influences, such as moisture, the cap is closed with a cup or a foil circle.

CD works as follows. When the tip is introduced into the prick composition due to the energy released during friction, it ignites. Next, the initiating charge is ignited, the combustion of which turns into detonation. The shock wave from the initiating charge excites the detonation of the warhead, which performs the function specified for the CD, for example, initiates a detonating cord.

As a rule, capillary impingement compositions containing initiating explosives (IVV), for example, lead azide, tetrazene, lead trinitroresorcinate (TNRS), mercury fulminate, are used in the projectile action. The presence of TRS provides high sensitivity to pinpricks and, accordingly, high reliability of the functioning of products, but at the same time causes a high danger in the production of pinned compositions and PD, as well as the use of PD.

Known nakol composition [1], containing TNRS (50%), tetrazene (5%), barium nitrate (25%) and antimony trisulfide (20%). The presence of TNRS and tetrazene makes it possible to provide a high level of sensitivity to puncture, but the thermal stability of compositions based on tetrazene is no more than plus 90°C.

Known nakolny composition [2], containing potassium perchlorate (9.0-18.0)%, antimony trisulphide (58.0-62.5)%, a mixture of lead azide and TNRS (the rest). The absence of tetrazene makes it possible to provide a significantly higher heat resistance (up to plus 200°C for 2 hours), but the level of danger in the production and use of CD with such a spiked composition does not decrease due to the presence of lead azide and TNRS.

Known beam blasting cap [3], not containing IVV. In the initiating charge, it is proposed to use high explosives (HSE), such as heating elements, octogen, hexogen. The disadvantages of this CD are the complexity of manufacturing, stringent requirements for the density of pressings and, accordingly, the parameters of pressing. From the beam beam CD does not work.

Closest to the subject of the invention is the blasting cap blast action KD-N-13 [4], selected as a prototype. It is an aluminum cap, into which a prick composition is pressed, an initiating charge from IVV, a combat charge from BVV and a cup or a foil circle that closes the charges. Kr45Ss55K OST B 84-207-78, granulated using colloxylin varnish, containing silicon (45 ± 1.5)%, red lead (55 ± 1.5)% and colloxylin ( 0.4% over 100%). The initiating charge is made of cadmium azide, the combat charge is made of octanite.

The design and materials used provide high thermal stability of KD-N-13, which allows it to be used for perforating and blasting operations in oil and gas wells. The absence of IVV in the injection composition ensures an increase in the safety of the production of the capsule composition and the product as a whole. However, due to the presence of TRS in the initiating charge, the increase in the level of safety is insignificant. The disadvantage of KD-N-13 is also the high actuation energy (0.2 J), which limits the possibility of its use in small-sized systems of pyroautomatics and special equipment. In addition, as practice shows, there are problems with the reliability of operation at high and low temperatures.

The purpose of the present invention is to create a small-sized (diameter of the shell is not more than 7 mm, a height of not more than 10 mm) caliper action with an actuation energy of not more than 0.1 J (when assessing the energy on the device OST B 84-1099-75), safe to handle for due to the complete exclusion from the design of the IVV, operable in the temperature range from minus 60°C to plus 160°C.

This goal is achieved by using a pyrotechnic composition containing silicon (45 ± 1.5)% and red lead (55 ± 1.5)%, granulated with water and not containing a binder, or the same composition obtained using ultrasonic technology. The initiating charge used tubing - perchlorate (5-nitrotetrazolato-N ² ) pentamincobalt (III), chemical formula Co[(NH ₃ ) ₅ (N ₄ C-NO ₂ )](ClO ₄ ) ₂ . This explosive has a relatively small section of the transition from combustion to detonation, which allows it to be used instead of explosives. In terms of sensitivity to mechanical stress, it occupies an intermediate position between IVV and BVV. As a combat charge, the same tubing, or BBB, such as hexogen, octogen, hexanitrostilbene, can be used, providing a higher initiating ability of the CD in relation to the tubing and having a thermal stability not lower than the thermal stability of the tubing.

The proposed prick composition of silicon-lead minium has a low sensitivity to mechanical stress. In order for it to ignite from being pricked with a sting, its pressing pressure must be at least 400 MPa, which is several times greater than the pressing pressure of pricked compositions containing IVV. The high density of the needle composition is necessary for sharp braking of the tip during the needle and the release of a large amount of energy.

The absence of colloxylin in the spiked composition ensures an increase in the reliability of the PD operation at high temperatures. At temperatures above plus 130°C, colloxylin decomposes. The released gaseous products loosen the prick composition, which is equivalent to pressing the composition at low pressures. The introduction of the sting into the loose composition occurs with less deceleration, the amount of heat released during friction and the reliability of ignition of the punctured composition are reduced. Without colloxylin, the composition can be used at temperatures exceeding plus 200°C. The strength of the granules of the composition made without the use of a binder (colloxylin) will be less. But, as practice shows, this does not create problems when equipping a CD.

An additional measure that serves to increase the sensitivity of the composition of silicon and red lead to puncture and ensure reliable operation of the CD at low temperatures is the proposed method for its manufacture. The essence of the method lies in the fact that ultrasonic treatment takes place in a highly volatile solvent, for example, acetone, and first, silicon powder is processed in a cavitation mode for a time of at least 10 minutes, and then red lead powder is added in the required amount, and ultrasonic treatment in the cavitation mode, another 10-15 minutes occur with a decrease in the power of ultrasound until the formation of agglomerates, at a temperature of not more than 70% of the boiling point of the solvent. After that, the composition is separated from the solvent, dried, granulated using water and dried in a thermostat at a temperature of plus 100°C for 2 hours.

The height of the spiked composition must be at least 2 mm. At a lower height, it is possible for the stinger to penetrate the pierced composition, which leads to a significant decrease in the reliability of its ignition.

The initiating charge from the tubing is pressed in one step at a pressure of 25 to 50 MPa, which provides a charge density of about 1.5 g/cm ³ . At higher pressure and density, the charge will be less porous, its burning rate will increase at a slower rate, and the length of the combustion-to-detonation transition region will increase. Accordingly, the mass of the active part of the initiating charge, operating in the detonation mode, and the parameters of the generated shock wave that initiates the detonation of the warhead will decrease. The reliability of the CD operation will decrease. A decrease in reliability will also take place with a decrease in the density of the initiating charge, since this leads to a decrease in the detonation velocity.

The height of the initiating charge must be at least 3 mm. At a lower altitude, the energy of the warhead will not be fully used or there will be failures in initiating the warhead. The height of the initiating charge determines the duration of the shock-wave effect on the combat charge. With a short duration, the exit of the explosive conversion of the combat charge to the detonation mode may not occur or occur over a large area with a loss of energy.

An example of the proposed design is shown in figure 1. An aluminum cap with a height of 10 mm and an inner diameter of 5.25 mm with a stamped bottom contains a prick composition 1, an initiating charge 2 and a combat charge 3. The cap is closed with a foil circle fixed by seaming. The prick composition is a pressing of the pyrotechnic composition Kr45Cs55, granulated on water. The initiating charge used tubing.

Tables 1 and 2 show the results of testing prototypes of CD for the failure-free actuation from being pricked with a sting after exposure at temperatures of minus 60°C and plus 160°C for 2 hours. The prototypes according to table 2 are distinguished by the fact that the prick composition used in them was obtained using ultrasound. The tests were carried out on the device OST V 84-1099-75 with a tip No. 2 according to OST V 84-1381-76 with a drop of a load weighing 100 g.

The test results from tables 1 and 2, relating to tests carried out at a temperature of minus 60 ° C, were used to calculate, using the quantile method [5], [6], the critical height of the fall of the load H _cr , at which the probability of operation is 50%, its average square deviation S and the probability of operation at a load drop height of 10 cm, corresponding to an puncture energy of 0.098 J.

According to table 1, the critical height is 5.1 cm, the standard deviation is 1.51 cm, the probability of operation at an energy of 0.098 J is equal to 0.9994.

According to Table 2, the critical height is 4.6 cm, the standard deviation is 1.12 cm, and the probability of operation at an injection energy of 0.098 J exceeds 0.9999. Thus, ultrasonic treatment provides an increase in the reliability of operation.

The results of tests at a temperature of plus 160°C indicate that the reliability of operation will not be lower than the level obtained when testing products at minus 60°C.

Table 3 shows the results of testing prototypes of design documentation for the initiating ability by the depth of the indentation on a steel plate. In the tests, the mass of the initiating charge of the tubing varied. The pressing pressure of tubing was from 25 to 50 MPa. The tests were carried out on the device OST V 84-1099-75 with a tip No. 2 according to OST V 84-1381-76 with a load of 100 g falling from a height of 10 cm.

The data obtained indicate that the initiating ability of the CD reaches its maximum values at the height of the initiating charge of the tubing about 3 mm.

Literature

1. Budnikov M.A., Levkovich N.A., Bystrov I.V., Sirotinsky V.F., Shekhter B.I. Explosives and gunpowder. - M.: Oborongiz, 1955, S. 119.

2. Ageev M.V., Volosastov E.D., Egorov V.N., Katalkina V.A., Paleva N.N., Petrov V.N., Sidorovich T.N. Initiating explosive composition sensitive to puncture // Patent RU 2309138 dated 01/24/2006.

3. Wang Kvamcheng, Li Xiankwan, Hu Guowen, Zang Xikin, Xu Tianrui Detonator without primary explosive // USSR Patent No. 1521291 dated 07.11.1989.

4. TU 84-775-78. Capsule detonator KD-N-13. Specifications: Approved. mailbox A-1317, 1978. - 25 p. JSC NPP Krasnoznamenets, inv. No. 9050.

5. OST B 84-1898-80. Pyrotechnic products. Methods for assessing compliance with reliability requirements: Approved. NPO "Krasnoznamenets", 1980 - 202 p.

6. Zazhigaev L.S. "Methods for planning and processing the results of a physical experiment" / Zazigaev L.S., Kishyan A.A., Romanikov Yu.I. - M.: Atomizdat, 1978 - 232 p.

Claims (4)

1. A detonator cap of impaling action, including a shell into which a prick composition is pressed, initiating and combat charges, characterized in that a composition consisting of silicon 45 ± 1.5% and red lead 55 ± 1.5 is used as the impalement composition %, granulated on water, and as an initiating charge - explosive tubing - perchlorate (5-nitrotetrazolato-N ² ) pentamincobalt (III). 2. A blasting cap according to claim 1, characterized in that the blasting composition is pressed into the shell at a pressure of more than 400 MPa, the initiating charge - at a pressure of 25 to 50 MPa, the height of the pressing of the piercing composition is at least 2 mm, the height of the initiating charge - not less than 3 mm. 3. A blasting cap according to claim 1, characterized in that the combat charge uses an explosive tubing - perchlorate (5-nitrotetrazolato-N ² ) pentamincobalt (III) or high explosives, such as octogen, hexogen, hexanitrostilbene. 4. A method for manufacturing a spike composition using ultrasonic treatment, characterized in that in the manufacture of a spike composition according to claim 1, ultrasonic treatment is carried out in a highly volatile solvent acetone in a cavitation mode at a temperature of not more than 70% of the boiling point of a highly volatile solvent, and first ultrasonic treatment of silicon powder for a time of at least 10 minutes, then red lead powder is added to the resulting suspension and silicon and red lead are dispersed and mixed by ultrasonic treatment for 10-15 minutes with a gradual decrease in ultrasound power.

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