DE1141851B - Method for reducing sliding friction and using the same for firearms - Google Patents

Description

Method for reducing sliding friction and using the same for firearms The invention relates to a method for reducing sliding friction between two metal surfaces sliding on top of one another with high surface pressure and the application of the method to the firing of projectiles from firearms.

It is known that a gas layer between with high pressure per unit area metal surfaces sliding on each other can noticeably reduce the friction. This is especially in those cases of importance in which, as a result of external circumstances, for example because of the high temperature of the two metal parts, other lubricants to reduce friction are no longer applicable and so-called self-lubricating Materials, e.g. B. graphite-containing metals, out of the question for reasons of strength come. The gaseous lubricant film is applied to the surfaces sliding on each other not supplied from the outside, but is - which of course only with high surface pressure is possible - by evaporation of gas-forming substances from the touching ones Surfaces or by the leakage of dissolved in the metal or on the metal surface bound gas components supplied.

Of course, a normal unprepared sliding surface is not in the Able to maintain a gaseous lubricant film over long periods of time, there is a certain loss of gas through diffusion into the other surface and is inevitable due to migration to the edges of the sliding surface parts.

From the Swiss patent specification 308 295 it was also known the inner surface of the barrel of firearms by using a glow discharge process nitriding in order to achieve a splinter-resistant and ductile surface and around to reduce the friction of the bullet in the barrel.

It has also already been suggested in place of the difficult to be treated inner wall of the gun barrel the guide rings of the intended To train projectiles accordingly in order to obtain the sliding friction-reducing vapors. For example, it has been proposed that the guide rings from one during the shooting process to produce evaporating metal so that the metal vapor is deposited inside the pipe and protects its surface. But there was such a precipitate on a steel surface only badly adheres and with the next shot already from the foremost guide ring is scraped off, there were no noticeable improvements in wear in this way be achieved. The efforts to achieve a further reduction in sliding friction by influencing the degree of enrichment of the metal surfaces concerned unsuccessful and showed little effect on the maximum reduction in friction. It therefore seemed unnecessary and hopeless to change the circumstances when using bullets enriched with gas-forming substances in the same way treated gun barrels to investigate more closely, especially since such experiments are extraordinary are costly.

Surprisingly, however, it has been found according to the invention that an abrupt reduction in sliding friction is possible, namely by the fact that two metal surfaces are used, which both by means of electrical Glow discharges contain diffused gas-forming substances.

The metal surfaces can, in addition to the diffused substances in their microporous surface zone contain entrapped gases. Furthermore, as diffused substances, decomposing chemical compounds and / or mixed bodies be used. It is also possible, as diffused substances, to use evaporating, to use non-metallic substances, in particular sulfur and / or phosphorus. Such substances evaporate at the extreme pressures and temperatures that are present and form the friction-reducing gas layer. Finally, others can Gases such as hydrogen, oxygen, and under certain circumstances even noble gases, Enrich in the metal surfaces subject to sliding friction in such a way that the same can contribute to the formation of a friction-reducing gas layer.

Preferably the method according to the invention is used for the firing process of projectiles from firearms applied, preferably the inner wall of the Rohres or Laufes have a hardened, but ductile and shatterproof nitrided surface and the steel bullet annealed and nitrogen-enriched steel guide rings own. The guide rings of the projectile are preferably up to one the maximum possible deformation of the guide rings exceeding depth with gas-forming Enriched substances, it is particularly useful if the pipe or barrel inner wall and bullet guide rings are enriched with substances that are under the shot The same gases develop under the prevailing pressure and temperature conditions.

With the already used with considerable success, in one electric glow discharge on the inner wall with gun barrels enriched with nitrogen the surface parts that can be touched by the projectile are quite capable of forming a to deliver a sufficient amount of gas from gas cushions. When passing through normal, so with unprepared guide rings of bullets provided, however, apparently becomes a certain Amount of gas consumed, and there is an adverse decrease in the gaseous Lubricant film. It is assumed that already with the single shot, with which the guide rings extend from the cartridge chamber to the muzzle on the sliding and Heat the deformed surface to over 1000 ° C, the friction-reducing gas layer because of this high temperature of the guide rings consumed and increasingly is consumed. The guide rings should in any case reduce the gaseous Cause lubricant film.

This disadvantage, which already occurs with the single shot, of the friction-reducing A layer of gas is superimposed with increasing use of the gun barrel effective impoverishment of the surfaces of the inner tube wall touched by the projectile substances capable of forming gases. This impoverishment is based - as far as can be determined so far could - on the fact that as a result of the heating of the pipe inner wall, the inside of the same gas-forming substances located there, provided they do not escape and the Form the desired gas layer through a diffusion process into deeper zones migrate to the metal surface. But there are new such substances from the surface do not diffuse in, the outermost metal layers are depleted accordingly Dimensions.

According to the invention, a sudden reduction in sliding friction is now achieved, surprisingly, beyond the values previously achieved at best for a short time. In favorable cases, the sliding friction is reduced by 80 to 9011 / o.

This advantage is believed to be primarily due to that the gas layer produced when the high dynamic friction stress occurs not, as before, only fed from one metal surface and more from the other or is consumed less heavily. Rather, all surface elements involved carry both metal surfaces for feeding the gas layer. Now heat up with a single shot If the guide rings pass through the pipe, they release gas instead, and an adverse effect on the friction-reducing gas layer occurs not a. In the process, the inner wall of the pipe is depleted of gas-forming substances largely prevented, since the guide rings are now using appropriate substances are supplied, some of which diffuse into the heated inner wall of the pipe can.

It is of course a prerequisite that the two are highly stressed Gases escaping from metal surfaces do not react with one another in an undesired manner, but with the prevailing temperature and pressure conditions with each other and are compatible with the explosion gases in the environment. Preferably Both surfaces are enriched with the same gas-forming substances. It but various substances can also be used, their gaseous components are compatible with each other and add up in terms of volume. So it is allowed in the The inner wall of the pipe is not enriched with such a gas-forming substance, whose gas component has a chemical bond with that of the guide rings enters, which adversely affects the friction-reducing gas layer or the Corroded inner pipe wall. On the other hand, there can be chemical bonds between the exiting Gases and the explosion gases are quite desirable if this causes the gas layer is not adversely affected.

It is also important that the concentrations of the in both Gas-forming substances enriched in metal surfaces are matched to one another. Since the gun barrel to achieve a hardened, but ductile and shatterproof In any case, the inner surface must be nitrided in an electric glow discharge must recommend it. themselves, all of them, or at least those for contact with this Inner wall provided parts of the projectile outside also by means of a glow discharge process to be enriched with appropriate gas-forming substances.

The gas-forming substances can either be used as chemical compounds be enriched in the uppermost zones of the metal surfaces or alloy components these metals form or form a solid solution with the metal. For example some of the following compounds have already been considered in terms of their friction-reducing properties Effects investigated and found to be suitable, so that the whole Group of substances should be more or less usable: FeO! Fe, 03 / Fe304 / Fe, N / Fe2P / FeS / Fe2S; Cu0 / Cu20 / Cu3N / CuS / Cu, S; Cr0 / Cr203 / Cr03 / CrN; A1203 / AIN / A1253.

These substances naturally have different decomposition temperatures or boiling temperatures (steam formation), so that a suitable one depending on the intended use Selection must be made.

In addition to such chemical compounds, there are of course also metals and metalloids are beneficial as alloy constituents when they are exposed to stress evaporate the metal surfaces and have a sufficient vapor pressure, for example Zinc, lead, chrome, etc.

When the treatment gases diffuse into the metal surface, z. B. So of nitrogen, so-called mixed bodies arise at a certain depth, which represent chemical and physical bonds between metal and gas. According to experience give such mixing bodies during the extreme temperature and pressure conditions During the firing process, the nitrogen is released again as a gas.

The surface is twofold after the glow discharge treatment Enriched with respect to gas. On the one hand there is a diffused nitrogen in the Metal layer dissolved or bound in the form of mixed bodies. On the other hand are gaseous Ingredients included in the microporous surface layer. Among the at The prevailing pressure and temperature conditions carry both the gas load as well as the mixing body for feeding the friction-reducing gas layer between the sliding metal surfaces. The guide rings should start with the gas loading should be effective, but after the deformation begins, essentially deeper zones with mixed bodies contribute to the gas release.

Follow the procedure described above for bullet guide rings the surfaces intended for sliding friction can be made of any shape, also very complicated workpieces with the microporous according to the invention Provide surface zones. Further or narrow holes can also be used on the Treat the inner wall in this way, if necessary using a coaxial in wire-like or pin-like counter-electrode arranged in the bore. Of great advantage is here that the transformation of the surface zone after complete completion of the workpiece in question can take place, since the very uniform temperature treatment no warping of the workpieces occurs. The dimensional changes due to material migration, if the same can be determined at all, it can easily be determined on a test piece and then taken into account in the previous machining of the workpieces, since the glow discharge treatment takes place under precisely reproducible conditions.

The method according to the invention is of course not applicable to steel parts limited, but can, usually with different treatment times, also all non-ferrous metals and alloys. In particular, can also very hard metallic materials, such as those used for friction clutches, Gears, ring gears, etc. are used in the same way with an inventive provided with a microporous surface zone and enriched with substances capable of delivering gas will.

The substances to be enriched in the metal surfaces can, as in the Examples described above, mainly obtained from the gas in the discharge vessel will. Of course, such gas-forming substances can also be applied to others Way to introduce into the glow discharge on the workpiece surfaces to be treated. For example, a corresponding substance can be vaporized in the discharge vessel and be mixed with the gas atmosphere, or a corresponding mist is formed such substance particles are injected into the discharge vessel. Furthermore, the known Cathodic sputtering or arc sputtering techniques can be used to Mixing foreign matter particles with the gas atmosphere.

It should finally be pointed out that the friction-reducing Gas cushions in firearms because of the good sealing of the projectile in the barrel is beneficial. Furthermore, the resulting friction-reducing gas layer appears also a protective layer on the heavily used parts of the pipe inner wall to form the aggressive products of the explosion. It may well be that the leaps and bounds in the life of firearm barrels made with the present Method can be achieved, not by reducing the sliding friction losses itself is conditioned, but by reducing harmful consequences of the usual high sliding friction, such as wear, increased risk of erosion, etc., is achieved.

Claims (7)

PATENT CLAIMS: 1. Method for reducing the sliding friction between two metal surfaces sliding on top of each other with high surface pressure, characterized in that that two metal surfaces are used, both of which by means of electrical glow discharges contain diffused gas-forming substances. 2. The method according to claim 1, characterized in that metal surfaces are used which, in addition to the diffused in Substances contain gases trapped in their microporous surface zone. 3. Method according to Claim 1, characterized in that the substances which have diffused in decomposing chemical compounds and / or mixed bodies are used. 4th Method according to Claim 1, characterized in that the substances which have diffused in Vaporizing non-metallic substances, in particular sulfur and / or phosphorus, are used will. 5. Application of the method according to claims 1 to 4 on the shooting of Shot from firearms, preferably the inner wall of the barrel or barrel a hardened, but ductile and shatterproof nitrided surface and the steel bullet Have annealed and nitrogen-enriched steel guide rings. 6th Use according to claim 5, characterized in that the guide rings of the projectile up to a depth exceeding the maximum possible deformation of the guide rings be enriched with gas-forming substances. 7. Application according to claims 5 and 6, characterized in that the barrel or barrel inner wall and projectile guide rings are enriched with substances under the pressure and pressure prevailing during the shot Temperature conditions develop the same gases. Considered publications: Swiss Patent No. 308 295; British Patent No. 670,869; U.S. Patent No. 2125 606; Schwinning, "Construction and Material of Gun Barrels", 1954, P. 132.