DE1125822B - Smokeless propellant powder grain - Google Patents

Description

Smokeless Propellant Powder Granule The invention relates to an improved one smokeless powder grain that is particularly good as a propellant for rockets and others remotely guided projectiles is suitable.

Propellants based on smokeless powder are used as fuel used for rocket propellants and guided missiles. The smokeless powder base consists largely of nitrocellulose, which by means of a suitable, practically not volatile solvent, e.g. B. a plasticizer for nitrocellulose, gelatinized has been. This plasticizer can either not be explosive or it can be liquid Nitric acid ester of a polyhydric alcohol, e.g. B. nitroglycerin. Propellant this composition have a burning rate that is determined by the temperature at the time of ignition and due to the resulting pressure in the vessel or the room, in which the propellant burns is influenced. In other words: that of one the pressure developed by the burning propellant grain is proportional to the burning rate, due to the temperature of the propellant at the time of ignition and the pressure, under which the propellant burns off, is influenced. Because of the influence of temperature and pressure on the burning rate of the propellant have heretofore been propellants based on nitrocellulose not suitable for general use because the Burning rate at different heights and at different temperatures enters, fluctuates.

It was found that the temperature of the propellant powder to the The time of its ignition and the pressure under which it burns can be modified, by incorporating certain organic lead salts into the propellant grain. Propellant, containing such a lead salt burn at a constant speed within a pressure range and within certain temperature limits. This effect of the Lead salts is known as the mesa or plateau effect, and it is possible to use propellant powder with very specific mesa effects. The burning rate can thus can be reliably predicted within a given pressure range, and the Propellants can be designed so that they are at a certain pressure level burn at a desired speed.

The invention now proposes a smokeless propellant powder grain Nitrocellulose base with improved burning properties, which is characterized is that it is the lead salt of an aliphatic organic acid with more than 6 carbon atoms practically evenly distributed within the grain. The technical advantage of the smokeless propellant powder according to the invention is first of all that its burning properties due to fluctuations in atmospheric pressure and temperature are practically not influenced before ignition and that in particular its burning rate practically independent of fluctuations in pressure and ignition temperature within the pressure and temperature range in which such propellants are used will. Furthermore, the propellant according to the invention has a novel mesa or Plateau effect.

The smokeless powder grain of the present invention is a molded gel made of a nitrocellulose base, a virtually non-volatile liquid solvent for nitrocellulose and particles of a lead salt of an aliphatic organic Acid with more than 6 carbon atoms that is evenly distributed within the gel can be distributed. Specifically, it was found that a smokeless powder grain improved with Burning properties is formed by preferably using a lead salt of an alkoxy acid, a lead salt of a keto acid or a lead salt of a nitrogen-substituted one Amino acid is practically evenly distributed in the nitrocellulose gel that is too the blowing agent grain is deformed. Lead-N, N-di-2-ethylhexyl-ß-aminopropionate, lead-12-ketostearate, either normal or basic, lead 9 (10) acetaminostearate, lead cyclohexyloxyacetate and Lead butoxyacetate are examples of aliphatic organic acids that can be found as particularly useful for modifying the burning properties of the propellant grain have proven.

In order to determine the effect of the various ballistic-modifying lead salts of aliphatic acids on the burning off of the propellant grain, a grain of the desired composition is burned under a given pressure and the burning rate is determined. The burning rate of the propellant according to the invention increases rapidly with the pressure up to a certain pressure level and then remains practically constant within a further pressure range. It was z. B. found that a propellant having a stated composition of about 57.81 "/ 1" nitrocellulose, about 24.7 °, m nitroglycerin, about 9.21 "/ o triacetin, about 3.3 °; 0 dioctyl phthalate, about 1.7 ° / 1 "2-nitrodiphenylamine and about 3.31";, 1 "one of the lead salts given in the following table had a practically constant burning rate when it was at an external pressure between about 70 and 140 kg / cin2 at a temperature of about 21 and about 60 # C was burned. as the following table shows: Burn rate (cm second) 21'C 60'C 70 140 70 140 kg; 'cm2 kg / cm = kg,' cm @ lkg, 'cm $ Lead-N, N-di-2-ethylhexyl- ' / 3-aminopropionate ..... 0.84; 0.99 0.84 I 0.99 Lead 12-ketostearate ...... 0.66 0.84 0.81 0.94 Basic lead-12-keto- stearate ............... 0.71 0.89 0.81 I 0.94 Lead-9 (10) -acetamino- stearate ............... 0.69 0.74 0.79 0.86 Lead cyclohexyloxyacetate .. 0.86 0.86 1.09 i 1.07 Lead butoxyacetate ........ 0.94 0.86 0.94 0.91 Tetraphenyl lead ......... 0.74 0.99 i 0.89 1 1.19 From the above table it can be seen that the propellant of the present invention has a more constant burning rate than one containing a lead salt of an aromatic compound such as tetraphenyl lead within the pressure range of 70 to 140 kg / cm 2 generally encountered in practice. The composition of the propellant grain can be between about 40 and 70 percent by weight nitrocellulose, about 4 and 451 "/ 1" virtually non-volatile solvent for the nitrocellulose, about 0.5 and 51 "/ 1" lead salt and about 0.5 and 2.5 ° / o a suitable stabilizer for smokeless powder propellants, e.g. B. 2-Nitrodiphenylamin, Diethyldiphenylliarnstoff, Methyläthyldiphenylurea, Diphenylamine od. The like., Vary. It has been found that about 0.2 to 0.5 parts of casting solvent per 1 part of nitrocellulose particles must be used to deform the grain in order to ensure that the grain has a practically uniform composition as the nitrocellulose dissolves and the gel solidifies at the same time has its entire length. The solvent can contain from about 60 to 851 ";1" nitroglycerin or a similar energy-providing modifier and also consist of a non-exploding, virtually non-volatile solvent such as indicated above. A typical solid propellant granule consists of about 58% nitrocellulose, 251 "! 1" nitroglycerin, 91 "/ 1" triacetin, 31 "/ 1" dioctyl phthalate, 3.5 ";', lead cyclohexyloxyacetate and about 1.5010 2-nitrodiphenylamine .

The propellant granule can be prepared by any conventional extrusion or casting process getting produced. However, it is preferred with large grains, and it is in some Cases, it is necessary that the grains are molded by a casting process. At a Casting methods suitable for this purpose can contain nitrocellulose granules, as obtained by the method of U.S. Patent 2,027,114, in given a suitable shape and the spaces between the beads with a practically non-volatile solvent for nitrocellulose to be filled. Of the The contents of the form are then heated to a temperature at which the beads of gelled nitrocellulose dissolve in the solvent and the mass to solidified in a practically homogeneous gel. That to modify the burning properties The lead salt used for the propellant grain is added to the gel either by incorporation into the powder globules during their manufacture or by spreading the lead salt incorporated in the casting solvent. Smokeless powder pellets can also be used after the method described in U.S. Patent 2,715,574 or by conventional methods Pressing out or produced by another suitable process. To be reliable a propellant having a predetermined burning rate within a given To maintain the pressure range, it is essential that the lead salt is well distributed in the gel from which the molded propellant grain is made.

A preferred casting solvent is about 72 percent by weight Nitroglycerin, 27 ° / 1 "plasticizer and about 11" / o stabilizer, but the composition The solvent can vary, and in some cases it can only consist of a plasticizer exist for the nitrocellulose. Any suitable, virtually non-volatile solvent for the nitrocellulose can be used. Examples of such solvents are triacetin, dioctyl phthalate, dibutyl phthalate, dimethyl phthalate, dimethyl sebacate, Dibutyl succinate, dibutyl adipate, ethyl diphenyl phosphate, tributyl phosphate, dimethyl phthalate, Dioctyl sebacate, o-nitrodiphenyl, butyl benzyl phthalate, octyl diphenyl phosphate, triethylene glycol, Di-2-ethyl butyrate and the like For best results, use a solvent obtained containing a liquid nitric acid ester of a polyhydric alcohol, z. B. nitroglycerin or nitroglycol. In many cases, the greater part of the Solvent for the nitrocellulose from a liquid explosive nitric acid ester a polyhydric alcohol, which is an energy-providing modifier for the burning properties of the grain.

A detailed description follows so that the invention can be better understood an embodiment of a method for producing the powder grains according to FIG present invention.

About 58 parts by weight of the nitrocellulose beads obtained after your procedure U.S. Patent 2,027,114 are made into a suitable shape given. The beads were made by suspending nitrocellulose in water, dissolving the suspended particles in ethyl acetate, dividing the obtained Lacquers to beads and removing the solvent from the beads while they are in Water that is a protective colloid z. B. contains gum arabic, are suspended. The mold is closed, and about 42 parts by weight of casting solvent from about 25 parts of nitroglycerin, 9 parts of triacetin, 3 parts of dioctyl phthalate, 3.5 parts Lead cyclohexyloxyacetate and about 1.5 parts of 2-nitrodiphenylamine are added under pressure pressed into the mold and into the spaces between the nitrocellulose beads. The contents of the form are then heated to about 60 ° C and held for about 48 hours Maintained temperature or until the casting solvent removes the nitrocellulose particles dissolved and the mass becomes homogeneous without reducing the amount of solvent Gel has solidified. that fills the inside of the form.

Of course, as already mentioned, other suitable Methods for shaping the gel can be used. With an appropriate procedure the solvent and nitrocellulose are mixed together, and the resulting Suspension is poured into a mold that has the desired shape. Form is then allowed to stand at an elevated temperature until the particles dissolve and have formed a gel. The lead salt can be after this or after be incorporated into any other process prepared by adding it to dispersed in the nitrocellulose particles during their manufacture or in the casting solvent is resolved. The relatively constant burning rate or the »plateau (4, as it is usually referred to in technical jargon, extends over various Press. as can be seen from the table above, depending on which Lead salt is used. In addition, the width of the print area varies, within which the burning rate remains practically constant, depending on the single lead salt in the gel.

Claims (4)

PATENT CLAIMS: 1. Smokeless propellant powder grain based on nitrocellulose with improved burning properties, characterized in that it is the lead salt an aliphatic organic acid with more than 6 carbon atoms is practical evenly distributed within the grain. 2. Smokeless propellant powder grain according to claim 1, characterized in that it is about 0.5 to 5.0% of the lead salt contains. 3. Smokeless propellant powder according to claim 1 or 2, characterized in that that the lead salt is the salt of an amino acid substituted on nitrogen. 4th Smokeless propellant powder according to claim 1 or 2, characterized in that that the lead salt lead-N, N-di-2-ethylhexyl-ß-aminopropionate, lead-12-ketostearate, Lead 9 (10) acetaminostearate, lead cyclohexyloxyacetate or lead butoxyacetate.