US2060522A - Nitrosoguanidine as a priming ingredient - Google Patents

Nitrosoguanidine as a priming ingredient Download PDF

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US2060522A
US2060522A US733336A US73333634A US2060522A US 2060522 A US2060522 A US 2060522A US 733336 A US733336 A US 733336A US 73333634 A US73333634 A US 73333634A US 2060522 A US2060522 A US 2060522A
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nitrosoguanidine
priming
lead
ingredient
mixtures
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US733336A
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Olsen Fredrich
Frederick R Seavey
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Western Cartridge Co
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Western Cartridge Co
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    • CCHEMISTRY; METALLURGY
    • C06EXPLOSIVES; MATCHES
    • C06BEXPLOSIVES OR THERMIC COMPOSITIONS; MANUFACTURE THEREOF; USE OF SINGLE SUBSTANCES AS EXPLOSIVES
    • C06B43/00Compositions characterised by explosive or thermic constituents not provided for in groups C06B25/00 - C06B41/00
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S149/00Explosive and thermic compositions or charges
    • Y10S149/11Particle size of a component
    • Y10S149/112Inorganic nitrogen-oxygen salt
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S149/00Explosive and thermic compositions or charges
    • Y10S149/11Particle size of a component
    • Y10S149/114Inorganic fuel

Definitions

  • This invention relates generally to priming mixtures, and particularly to priming mixtures cgintaining as an ingredient thereof nitrosoguani ne.
  • the ordinary or conventional priming mixture for ammunition consists generally of a sensitive initiator, such for instance as mercury fulminate, or lead azide, an oxidizing agent, such for instance as potassium chlorateor barium nitrate, a suitable fuel, and, when necessary, a sensitizer or abrasive.
  • a sensitive initiator such for instance as mercury fulminate, or lead azide
  • an oxidizing agent such for instance as potassium chlorateor barium nitrate
  • a suitable fuel such as sodium chlorateor barium nitrate
  • a suitable fuel such as sodium chlorateor barium nitrate
  • the oxidizer supplies oxygen for the combustion of the fuel so that the flame produced is of sufiicient intensity to ignite the ignition or the propelling charge of the ammunition, or the next unit in any explosive train in which the primer may be used.
  • Desirable ingredients for priming mixtures are those which break down into gaseous products of decomposition, it being understood, of course, that water will be present as a gas at the temperature of reaction.
  • Other desirable characteristics of priming ingredients are high insolubility and high chemical stability which tend to produce dependable and long life primers, notwithstanding adverse storage conditions, such for instance as high humidity, high temperature, etc. as is encountered in the tropics.
  • idcal fuels for primers should be ignitable at a comparatively low temperature and furthermore that the reaction of the fuel be sufiiciently rapid that an effective flame will be immediately propagated into the ignition or propellant charge.
  • Another object of this invention is to provide a fuel for priming ingredients which is easily ig- 0 nitable, dependable and positive in its action.
  • a further object of this invention is to provide or utilize a sensitizing organic fuel capable of effecting a decided and desirable increase in both sensitivity and positiveness of priming compositions when as little as approximately 1% is used.
  • a further object of this invention is to utilize an organic primer ingredient, which when combined with a suitable oxidizing material and an abrasive will function as the initial or sensitizing ingredient of a priming mixture.
  • a more specific object of this invention is to provide a priming mixture containing nitrosoguanidine.
  • nitrosoguanidine or it transgenic mix n contemplates the use of s equivalent, as an ingreture.
  • nitrosoguanidine possesses the advantage that it is readily ignited, is capable of burning without oxygen from any other source, its products of combustion readily react with available.
  • the present invention further contemplates a priming mixture in which the individual particles of the components are coated with a waterproofing agent, such for instance as a binder.
  • a waterproofing agent such for instance as a binder.
  • the water-proofing binder may be dissolved or carried in an organic solvent, such for instance as di-chlorethyl ether.
  • nitrosoguanidine employed in the priming mixture of the present invention need not necessarily be chemically pure nitrosoguanidine having the formula tively drier mass of priming mixture.
  • nitroguanidine NHNO but may have associated with it such substances as nitroguanidine NHNO:
  • nitrosoguanidine resulting from the process described and claimed in the copending application of Edward B. W. Kerone, Serial No. 733,325, filed June 30, 1934, is particularly adapted for use in the priming mixtures of this invention, notwithstanding that the nitrosoguanidine produced by [5 that process maybe associated with nitroguaniadine or with other concomitant substances. It ,is to be understood, however, that either chemically pure, or other suitable grades of nitrosoguanidine may be with advantage employed in 20 the priming mixtures of the present invention.
  • Nitrosoguanidine is particularly useful as a fuel ingredient of a priming mixture, and it will be understood, therefore, that it may be employed with one or more,of the ordinary initiating in- 25 gredients, such for instance as mercury fulminate,
  • Lead azide preferably prepared for use by the addition of a suitable quantity of di'chlorethyl l0 ether, for instance, may be mixed with the required ester gum.
  • Equivalent solvents to dichlorethyl ether may be employed as contemplated by the aforementioned application Serial No: 595,418, filed February 26, 1932.
  • To this L5 paste may be added the nitrosoguanidine and .these materials thoroughly mixed. At this stage the remainder of the ingredients may be added. The materials may or may not have been previously mixed.
  • This may also be termed a solvent of greater ;5 volatility.
  • the ester gum will necessarily remain as a binder and a waterproofing coating for each individual particle of the mixture and for that area of the shell or primer container in contact with the o priming mixture.
  • priming mixtures of the type described may be charged into components of very different type, as for instance, rimfire shells, center fire Shells of the Berdan type and center fire primer 5 of the battery cup, separate anvil type rather common to commercial shot shell use, it is desirable to be able to vary the plasticity of the mixture, its rate of drying, etc., without sacrificing safety during handling.
  • This is readily ac-
  • the foregoing are typical non-corrosive nonfulminate mixtures, but'it will be understood that the nitrosoguanidine is equally adaptable for use in priming mixtures containing potassium chlorate as the oxidizer, and, therefore, corrosive, as
  • blended organic sol- 5 vents whereon one component is preferably of a low degree of volatility and inflammability.
  • nitrosoguanidine may be employed in a priming mixture wherein lead azide is employed as the initiating ingredient. Satisfactory results may be obtained from priming mixtures containing the following ingredients in approximately the following proportions; two specific examples being given for illustration:
  • a priming composition having particularly advantageous properties for use in both rim fire V and center fire primers is one embodying a combination of lead azide, tetracene and nitrosoguanidine. These materials are employed together more or less in the capacity of initiators and fuels together with a suitable abrasive and an oxidizing agent.
  • Suitable abrasives for this combination are powdered glass, antimony sulphide and calcium silicide, the latter two also having some function as a fuel.
  • the balance may be made up of a suitable oxidizing agent, such as barium nitrate or potassium nitrate, although it will be understood that other ingredients not incompatible with those mentioned may be employed for particular purposes.
  • a suitable oxidizing agent such as barium nitrate or potassium nitrate
  • Percent Percent Percent 44. 3 Substantially bal. Potassium nitrate. l0 0 l5 Ester gum- 2 2. 2 2-2. 5
  • Percent Lead azide Tetracene 8 Nitrosoguanidine 2 Glass a 20 Calcium silicide 4 Antimony sulphide 10 Barium nitrate 22 Lead dioxide 8 Aluminum 4 Ester gum 2 The glass, antimony sulphide and barium nitrate being reduced to a fineness of between 150 and 200 mesh and the aluminum and ester gum being below 100 mesh.
  • nitrosogu'anidine may also be used as the initiator of a priming mixture.
  • nitrosoguanidine is-so used, the following examples are given:
  • the latter is an ignition mixture designed for initiation by the energy transferred from a resistance.
  • nitrocellulose referred to in the foregoing tables is preferably in a relatively fine state of sub-division, and may be obtained from a process of treating propellant powder, such as those described in the prior copending applications Serial No. 598,332, filed March 12, 1932, and Serial No. 620,302, filed June 30, 1932, it being understood that the finely divided nitrocellulose which may be produced in those processes may be advantageously employed as an ingredient of a priming mixture of the proportions set forth above.
  • compositions referred to in the foregoing tables are non-corrosive mixtures
  • any suitable oxidizer whether corrosive or not, may be employed and barium nitrate, or other oxidizing ingredient which has been referred to in the table may be replaced by any other well known oxidizing ingredient, such as potassium chlorate, potassium nitrate, lead dioxide, lea-d chromate, normal or basic lead nitrate, basic lead chromate, etc.
  • the antimony sulphide which occurs in manyof the mixtures, above referred to may be replaced by any suitable fuel-abrasive, such as calcium silicide, stannite, cassiterite, and ferrosilicon.
  • These materials may be considered as -the sensitivity of a given mixture, especially to increase safety in handling, against chance light impacts which may occur during processing or use, other fuels such as tetryl or guanidine picrate may be added.
  • the aluminum mentioned as a fuel may also be replaced by other metallic or by inorganic salts completely or in part, to accomplish similar modification of ignition qualities and sensitivity.
  • nitrosoguanidine preferably in proportions of 3-20% in any priming composition, no matter what the other ingredients may be.
  • the most advantageous results appear to be obtained when the lead azide constitutes about 20% of the priming mixture and the nitrosoguanidine about 8%.
  • Such priming mixtures show excellent characteristics .and possess particularly favorable resistance to severe atmospheric conditions.
  • the priming compositions are uniformly rapid in their action and produce a good flame without excessive violence while they are also capable of withstanding shock, and are not easily ignited.
  • nitrosoguanidine may be utilized as an ingredient of the relatively insensitive ignition increment which is fired by shock and flame from a sensitive increment to primers of the type described in the copending application of Frederick R. Seavey, Serial No. 680,347, filed July 14, 1933.
  • the nitrosoguanidine is used as an easily ignited fuel which will furnish a relatively large volume of gas.
  • suitable oxidizers it is also used to increase the rate of reaction of such insensitive or relatively insensitive mixtures.
  • a priming mixture containing nitrosoguanidine 1.
  • a priming mixture containing nitrosoguanidine and a sensitive initiator 4.
  • a priming mixture containing nitrosoguanidine and lead styphnate containing nitrosoguanidine and lead styphnate.
  • a priming mixture containing nitrosoguanidineand an explosive salt of an organic nitro compound containing nitrosoguanidineand an explosive salt of an organic nitro compound.
  • a priming mixture containing nitrosoguanidine and an explosive basic salt of an organic nitro compound 8.
  • a priming mixture containing approximately 2-10% nitrosoguanidine, 14-24% lead azide, and 20-50% barium nitrate.
  • a priming mixture containing nitrosoguanidine, lead azide and tetracene 12.
  • a priming mixture comprising lead azide 15-23%, tetracene 6-10%, nitrosoguanidine 2-6%, a suitable sensitizer, and an oxidizing agent.
  • a priming mixture containing nitrosoguanidine and tetracene 14.

Description

Patented Nov. 10, 1936 NITBOSOGUANIDINE AS A PRIMJNG INGREDIENT Fredrich Olsen and Frederick R. Seavey, Alton, Ill., assignors to Western Cartridge Company, East Alton, 111., a corporation of Delaware No Drawing. Application June 30, 1934,
' Serial'No. 733,336 r 14 Claims.
This invention relates generally to priming mixtures, and particularly to priming mixtures cgintaining as an ingredient thereof nitrosoguani ne.
5 The ordinary or conventional priming mixture for ammunition, whether for centerfire or rimfire cartridges, metallic or shot shell ammunition, consists generally of a sensitive initiator, such for instance as mercury fulminate, or lead azide, an oxidizing agent, such for instance as potassium chlorateor barium nitrate, a suitable fuel, and, when necessary, a sensitizer or abrasive. The function of the initiator is to produce the first spark, flame, or local detonation within that area acted upon by the firing pin of the firing mechanism; .to start the interaction of the other and less sensitive materials within the priming composition. and in many mixtures, to accelerate the rate of reaction of the mass of priming composition employed. The oxidizer supplies oxygen for the combustion of the fuel so that the flame produced is of sufiicient intensity to ignite the ignition or the propelling charge of the ammunition, or the next unit in any explosive train in which the primer may be used. Desirable ingredients for priming mixtures are those which break down into gaseous products of decomposition, it being understood, of course, that water will be present as a gas at the temperature of reaction. Other desirable characteristics of priming ingredients are high insolubility and high chemical stability which tend to produce dependable and long life primers, notwithstanding adverse storage conditions, such for instance as high humidity, high temperature, etc. as is encountered in the tropics.
It is further recognized that idcal fuels for primers should be ignitable at a comparatively low temperature and furthermore that the reaction of the fuel be sufiiciently rapid that an effective flame will be immediately propagated into the ignition or propellant charge.
It is among the objects of the present invention to provide an ingredient for priming mixtures which will possess the advantageous characteristics and overcome the disadvantages of other priming ingredients above referred to.
Another object of this invention is to provide a fuel for priming ingredients which is easily ig- 0 nitable, dependable and positive in its action.
A further object of this invention is to provide or utilize a sensitizing organic fuel capable of effecting a decided and desirable increase in both sensitivity and positiveness of priming compositions when as little as approximately 1% is used.
ture.
A further object of this invention is to utilize an organic primer ingredient, which when combined with a suitable oxidizing material and an abrasive will function as the initial or sensitizing ingredient of a priming mixture.
A more specific object of this invention is to provide a priming mixture containing nitrosoguanidine.
Other objects will become apparent to those skilled in the art when the following description is read.
The present inventio nitrosoguanidine, or it dient of a, priming mix n contemplates the use of s equivalent, as an ingreture. For use in this connection nitrosoguanidine possesses the advantage that it is readily ignited, is capable of burning without oxygen from any other source, its products of combustion readily react with available.
oxygen to produce a non-hygroscopic and s hot flame, it is relatively table in suitable mixtures.
Experiment and experience has shown that it is not so sensitive to shock or friction as some other materials which have heretofore been used for similar purposes.
Moreover, the decomposition products of nitrosoguanidine are all gaseous which is often of importance.
The present invention further contemplates a priming mixture in which the individual particles of the components are coated with a waterproofing agent, such for instance as a binder. In the case of those priming compositions which embody lead azide, or other extremely sensitive initiator, the water-proofing binder may be dissolved or carried in an organic solvent, such for instance as di-chlorethyl ether.
The use of such an organic solvent as pointed out in the copending application of Frederick W. Kerone, Serial No.
R. Seavey and Edward B. 595,418, filed February 26,
1932, reduces the hazards which have heretofore been identified with the use of lead azide as a primer ingredient.
The nitrosoguanidine employed in the priming mixture of the present invention need not necessarily be chemically pure nitrosoguanidine having the formula tively drier mass of priming mixture.
but may have associated with it such substances as nitroguanidine NHNO:
small quantities of which are almost inevitably produced along nitrosoguanidine. The nitrosoguanidine resulting from the process described and claimed in the copending application of Edward B. W. Kerone, Serial No. 733,325, filed June 30, 1934, is particularly adapted for use in the priming mixtures of this invention, notwithstanding that the nitrosoguanidine produced by [5 that process maybe associated with nitroguaniadine or with other concomitant substances. It ,is to be understood, however, that either chemically pure, or other suitable grades of nitrosoguanidine may be with advantage employed in 20 the priming mixtures of the present invention.
Nitrosoguanidine is particularly useful as a fuel ingredient of a priming mixture, and it will be understood, therefore, that it may be employed with one or more,of the ordinary initiating in- 25 gredients, such for instance as mercury fulminate,
basic or normal lead azide, lead styphnate, or the like, as an initiator.
Using for purposes of illustration a mixture containing lead azide as the initiator, nitrosolO guanidine as an organic fuel and sensitizer, ester gum, in its capacity to serve as a binder, deflocculating agent, desensitizer and fuel, suitable proportions of abrasive, such as glass, and oxidizer such as barium nitrate, or both lead di- 55 oxide and barium nitrate, the following procedure may in accordance with the present invention be adopted.
Lead azide, preferably prepared for use by the addition of a suitable quantity of di'chlorethyl l0 ether, for instance, may be mixed with the required ester gum. Equivalent solvents to dichlorethyl ether may be employed as contemplated by the aforementioned application Serial No: 595,418, filed February 26, 1932. To this L5 paste may be added the nitrosoguanidine and .these materials thoroughly mixed. At this stage the remainder of the ingredients may be added. The materials may or may not have been previously mixed. At this stage it is often desirable 0 to add -as a matter of temporary expediency an appreciable quantity of compatible and miscible solvent of appreciably lower boiling point than dichlorethyl ether, such for instance as ether. This may also be termed a solvent of greater ;5 volatility. In this manner it is possible to obthe mixture. After the removal of the solvent the ester gum will necessarily remain as a binder and a waterproofing coating for each individual particle of the mixture and for that area of the shell or primer container in contact with the o priming mixture.
As priming mixtures of the type described may be charged into components of very different type, as for instance, rimfire shells, center fire Shells of the Berdan type and center fire primer 5 of the battery cup, separate anvil type rather common to commercial shot shell use, it is desirable to be able to vary the plasticity of the mixture, its rate of drying, etc., without sacrificing safety during handling. This is readily ac- The foregoing are typical non-corrosive nonfulminate mixtures, but'it will be understood that the nitrosoguanidine is equally adaptable for use in priming mixtures containing potassium chlorate as the oxidizer, and, therefore, corrosive, as
complished by the use of blended organic sol- 5 vents whereon one component is preferably of a low degree of volatility and inflammability.
In accordance with the present invention nitrosoguanidine may be employed in a priming mixture wherein lead azide is employed as the initiating ingredient. Satisfactory results may be obtained from priming mixtures containing the following ingredients in approximately the following proportions; two specific examples being given for illustration:
Percent Percent Percent Nitrosoguanidin'eu' 210 8 8 Lead azide 14-24 22 22 Nitrocellulose- 0-3 54 Barium nitrate -50 31.5 28.5 20
' o-ao 29 29 0-20 1o o-a lid-3%; 2.5 2.5
When used with a combination of normal and basic lead azide as the initiators, the following approximate proportions give satisfactory results.
Percent Nitrosoguanidine 2-10 30 Normal lead azide; 0-25 Basiclead azide 0-10 Antimony sulphide 0-30 Glass 0-30 Aluminum -l 0e '2 Ester gum 1- 3% Barium nitrate 20-50 When used with lead styphnate or other salt of an organic nitro-compound as an initiator, the following approximate proportions may be 40 adopted; one specific example, being given for illustration:
Percent I Percent Percent Nitrosoguamdme 3-15 -12 o Lead styphnate 25-50 2050 43 Antimony sulphid 0-30 20-35 v o-sss Lead nitrate 20-35 28 Lead Sull'ocyanatn 5-10 7 Gum arable" 0-134; 1
Either normal or basic lead styphnate, or both, may be used in the above formulae.
The following table illustrates typical proportions with the use of nitrosoguanidine in connection with both lead azide (normal or'basic) and lead styphnate (normal or basic) as the initiators; one specific example being given for illustration:
Nitrosoguanidine P255183 t? Lead aziden 10-22 18 Lead styphnate 1-20 10 Zirconium 0-5 2 Antimony sulphide 0-30 6.5 Barium nitrate 0-24 12 Potassium nitrate--. 0-24 12 Lead dioxide 0-10 I 8 lass 0-30 23 Ester gum 1. 5-3. 0 2. 5
well as in the priming mixtures containing mercury fulminate as the initiator. The use of nitrosoguanidine with the latter is illustrated by the following table; one specific example being given for illustration:
Percent Percent Percent Nitrosoguamdine -20 6-10 8 Mercury iulminate.-- 35-50 35-50 40 G1 8-20 -20 Barium nitrate 15-30 5 Lead sulphocyanate 5-12 Lead chromate 0-12 "it-.- Gum arabic M 1% A 1% Antimony sulphide.-- 4-10 5 Lead dioxide 4-10 6 Potassium chlorate 0-40 A priming composition having particularly advantageous properties for use in both rim fire V and center fire primers is one embodying a combination of lead azide, tetracene and nitrosoguanidine. These materials are employed together more or less in the capacity of initiators and fuels together with a suitable abrasive and an oxidizing agent. Suitable abrasives for this combination are powdered glass, antimony sulphide and calcium silicide, the latter two also having some function as a fuel. The balance may be made up of a suitable oxidizing agent, such as barium nitrate or potassium nitrate, although it will be understood that other ingredients not incompatible with those mentioned may be employed for particular purposes. In the following table are given two specific examples of a. primer embodying the combination of lead azide, tetracene and nitrosoguanidine and also an example of general ranges:
Percent Percent Percent 44. 3 Substantially bal. Potassium nitrate. l0 0 l5 Ester gum- 2 2. 2 2-2. 5
As illustrating a formula suitable for primers for center fire ammunition employing nitrosoguanidine along with lead azide and tetracene, the following example may be given:
Percent Lead azide Tetracene 8 Nitrosoguanidine 2 Glass a 20 Calcium silicide 4 Antimony sulphide 10 Barium nitrate 22 Lead dioxide 8 Aluminum 4 Ester gum 2 The glass, antimony sulphide and barium nitrate being reduced to a fineness of between 150 and 200 mesh and the aluminum and ester gum being below 100 mesh.
As pointed out hereinbefore nitrosogu'anidine may also be used as the initiator of a priming mixture. As illustrating typical compositions in which nitrosoguanidine is-so used, the following examples are given:
Desirable, comparatively insensitive, ignition mixtures are illustrated by the following typical formulae:
The latter is an ignition mixture designed for initiation by the energy transferred from a resistance.
The nitrocellulose referred to in the foregoing tables is preferably in a relatively fine state of sub-division, and may be obtained from a process of treating propellant powder, such as those described in the prior copending applications Serial No. 598,332, filed March 12, 1932, and Serial No. 620,302, filed June 30, 1932, it being understood that the finely divided nitrocellulose which may be produced in those processes may be advantageously employed as an ingredient of a priming mixture of the proportions set forth above.
Although many of the compositions referred to in the foregoing tables are non-corrosive mixtures, it will be understood that any suitable oxidizer, whether corrosive or not, may be employed and barium nitrate, or other oxidizing ingredient which has been referred to in the table may be replaced by any other well known oxidizing ingredient, such as potassium chlorate, potassium nitrate, lead dioxide, lea-d chromate, normal or basic lead nitrate, basic lead chromate, etc. Likewise the antimony sulphide which occurs in manyof the mixtures, above referred to, may be replaced by any suitable fuel-abrasive, such as calcium silicide, stannite, cassiterite, and ferrosilicon. These materials may be considered as -the sensitivity of a given mixture, especially to increase safety in handling, against chance light impacts which may occur during processing or use, other fuels such as tetryl or guanidine picrate may be added. The aluminum mentioned as a fuel may also be replaced by other metallic or by inorganic salts completely or in part, to accomplish similar modification of ignition qualities and sensitivity.
From the foregoing description it will be understood that the present invention contemplates the use of nitrosoguanidine preferably in proportions of 3-20% in any priming composition, no matter what the other ingredients may be. When used in connection with lead azide the most advantageous results appear to be obtained when the lead azide constitutes about 20% of the priming mixture and the nitrosoguanidine about 8%. Such priming mixtures show excellent characteristics .and possess particularly favorable resistance to severe atmospheric conditions. The priming compositions are uniformly rapid in their action and produce a good flame without excessive violence while they are also capable of withstanding shock, and are not easily ignited.
It is also understood that nitrosoguanidine may be utilized as an ingredient of the relatively insensitive ignition increment which is fired by shock and flame from a sensitive increment to primers of the type described in the copending application of Frederick R. Seavey, Serial No. 680,347, filed July 14, 1933. In this type of mixture the nitrosoguanidine is used as an easily ignited fuel which will furnish a relatively large volume of gas. In combination with suitable oxidizers it is also used to increase the rate of reaction of such insensitive or relatively insensitive mixtures. l
It is also understood that while a firing pin has been mentioned as the instrument used to.
commercial electric detonators.
It is realized that many modifications of the priming'compositions hereinabo've described will present themselves to those skilled in the art without departing from the spirit of this invention. It is to be particularly understood, therefore, that this invention is not limited to the specific details, or materials, herein referred to,
but that the term nitrosoguanidine has been used in its descriptive rather than in its limitative sense. Such modifications and the use of such individual features and subcombinations of features as do not depart from the spirit of this invention are, although not specifically described herein, contemplated by and within the scope of the appended claims. I
Having thus described the invention, what is claimed is:
1. A priming mixture containing nitrosoguanidine.
2. A priming mixture containing nitrosoguanidine in an amount less than 25%.
3. A priming mixture containing nitrosoguanidine in an amount approximating 8% of the mixture.
4. A priming mixture containing nitrosoguanidine and a sensitive initiator.
5. A priming mixture containing nitrosoguanidine and lead azide. 1
6. A priming mixture containing nitrosoguanidine and lead styphnate.
'7. A priming mixture containing nitrosoguanidineand an explosive salt of an organic nitro compound.
8. A priming mixture containing nitrosoguanidine and an explosive basic salt of an organic nitro compound.
9. A priming mixture containing approximately 2-10% nitrosoguanidine, 14-24% lead azide, and 20-50% barium nitrate.
10. A priming mixture containing approximately 3-l5% nitrosoguanidine, 25-50% lead styphnate, and 20-35% barium nitrate.
11. A priming mixture containing approximately 3-l0% nitrosoguanidine, 10-22% lead azide, and 1-20% lead styphnate.
12. A priming mixture containing nitrosoguanidine, lead azide and tetracene.
13. A priming mixture comprising lead azide 15-23%, tetracene 6-10%, nitrosoguanidine 2-6%, a suitable sensitizer, and an oxidizing agent.
14. A priming mixture containing nitrosoguanidine and tetracene.
FREDRICH OLSEN.
FREDERICK R. SEAVEY.
US733336A 1934-06-30 1934-06-30 Nitrosoguanidine as a priming ingredient Expired - Lifetime US2060522A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3423259A (en) * 1966-03-28 1969-01-21 Olin Mathieson Ammunition priming composition of dry particulate ingredients with karaya gum binder
US5549769A (en) * 1989-03-20 1996-08-27 Breed Automotive Technology, Inc. High temperature stable, low imput energy primer/detonator

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3423259A (en) * 1966-03-28 1969-01-21 Olin Mathieson Ammunition priming composition of dry particulate ingredients with karaya gum binder
US5549769A (en) * 1989-03-20 1996-08-27 Breed Automotive Technology, Inc. High temperature stable, low imput energy primer/detonator

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