SE536525C2 - Lead-free ammunition for fine-caliber weapons - Google Patents

Abstract

The invention relates to a lead-free projectile (5) having improved performance and intended for small-bore weapons, configured so that the quantity of toxic metal particles and gases which is formed by the friction between the projectile (5) and the inner side of the weapon upon firing of the projectile (5) is reduced, at the same time as the performance of the projectile (5) is improved or maintained. The projectile (5) is characterized in that the core (6) of the projectile (5) comprises a front core part (7), constituting the penetrator part of the projectile (5), and a rear core part (8), constituting the ballast part of the projectile (5), wherein the front and the rear core part (7, 8) are detachably joined together with each other by a radial guide (9) configured for mutual freedom of rotation between the front and rear core part (7, 8), and in that the rear core part (8) comprises, on the one hand, a cylindrical part and, on the other hand, a conical part having a cone angle a within the range 5° - 9°, wherein the contact surface between the cylindrical part and the inner side of the weapon 1 upon firing of the projectile (5) constitutes less than 30% of the total surface area of the projectile (5). The invention also relates to an improved cartridge (1) and an improved method.

Description

25 30 35 536525 Smaller amounts of lead- even when the projectile hits a target. and copper dust. Emissions of toxic particles and gases pose a risk not only to the shooter but also to people in the environment.

There is thus a need for ammunition, where environmentally hazardous heavy metals in projectiles, propellant and ignition systems have been replaced with other materials or where the proportion of environmentally hazardous metals has been reduced to as low as possible and which is acceptable.

In the light of the above, a new generation of projectiles has recently been developed in which lead has been replaced in the patent specification US 20060107863, projectile with other materials. describes one in which the core of the projectile is composed of a compacted metal powder comprising a mixture, or mixtures, of iron powder, copper powder and tin powder. U.S. Pat. No. 2008,0000,379 discloses a projectile whose core is composed of a composite material comprising a mixture of compacted metal and mineral powder.

However, a problem with these composite-based projectiles is their low penetration ability. strength that composite projectiles meet their Composite materials are generally lower compared to solid metals, means more easily split as they target, compared to lead projectiles. to improve consideration For the penetration ability and at the same time the environmental problems, projectiles with solid steel cores have been developed. In US6973879 lead-free consists of a hardened steel. the patent specification describes a projectile in which the core The projectile lacks a conventional jacket and has therefore been replaced with a surface layer, which consists of a soft metal, mixtures thereof, plated directly on the steel core. copper, nickel, zinc, aluminum or A problem with said steel projectile is the environmentally hazardous metal particles and metal dust generated by the friction that occurs between the projectile and the inside of the weapon when the projectile is fired from the weapon. The friction has a negative effect on the projectile's performance, at the same time as the emission of harmful metal particles, mainly copper, nickel and zinc, risks exceeding the permitted limit values, for example 2 mg / ms for respirable copper dust.

An additional problem is the toxic substances that are formed during the combustion of the ammunition's ignition and drive kits.

Another problem is the difficulty of adapting the projectile to the different requirements set in terms of performance and environment for different weapon applications.

OBJECT OF THE INVENTION AND ITS FEATURES A main object of the present invention is an improved lead-free projectile for fine-caliber weapons designed so that the friction between the projectile and the barrel of the weapon, when firing the projectile, is reduced so that the proportion of zero-hazardous gases and metal particles is reduced.

A further object of the present invention is a lead-free cartridge for fine-caliber weapons designed so that when a projectile is fired from the weapon, the amount of toxic substances in from firing performance is maintained or improved. Another object of the present invention is a method of, when firing a projectile from a fine caliber weapon, reducing wear between the projectile and the barrel of the weapon so that the amount of environmentally hazardous gases and metal particles are reduced while maintaining or improving projectile performance.

A further object of the present invention is simple and environmental in a different projectile design that can be adapted to different requirements in performance weapon applications.

The said objects, as well as other objects not listed here, are satisfied in a satisfactory manner, by what is stated in the present independent patent claims.

Embodiments of the invention are set out in the dependent claims.

Thus, according to the present invention, there is provided a lead-free projectile, of Salmon length, for fine caliber weapons, the projectile being designed for a lower friction comprising a cemented carbide core, or partially enclosed by a metal sheath, and by the firing of the projectile, so the amount of metal particles and environmentally hazardous gases from the projectile is reduced while the projectile's performance is maintained or improved, the projectile core comprising a front core part constituting the projectile's penetrator part and a rear core part constituting the projectile ballast part.

Characteristic of the projectile is - that the front and the rear core part are detachable with each other via a radial freedom of rotation joined control designed for mutual between the front and rear core part 10 15 20 25 30 35 536525 - that the rear core part comprises a cylindrical core part with the length LC and a cone-shaped core part of length IW, the angle α for the cone-shaped core part being in the range 5 ° - 9 °, and the contact surface between the shell and inside of the cylindrical core part being less than 30% of the weapon 1 constituting the total surface of the projectile. L fl q between the tip of the projectile and the center of gravity of the projectile TP, is in the range 0, 55Lt0t S Lfpš 0,60Lt0t _ that the length LC of "the cylindrical part of the rear core part is in the range 0, 25Lwt S LC SO, 3lI @ Ot According to additional aspects of the lead-free the projectile applies according to the invention: that the rear core part comprises at least 90% uncured steel, that the jacket comprises at least 90% steel plated with a a thin layer of copper, that the jacket is divided into a front jacket part, an intermediate jacket part and a rear jacket part, the thickness of the intermediate jacket part being at least twice as thick as the thickness of the front jacket part and the rear jacket part and that the three jacket parts form three separate components joined together on the core of the projectile via shrinkage or threading, that the intermediate jacket part is surface treated by sulphation to minimize wear in the weapon that at least 30% of the rear core part is cone-shaped, that the jacket comprises inner longitudinal grooves or grooves for preventing rotation of the front and rear core portions of the projectile within the sheath, the nantle comprising outer longitudinal grooves or grooves for reducing the friction between the projectile and the weapon, the sheath comprising outer transverse grooves or grooves for reducing the friction between the projectile and the weapon, according to the present invention a lead-free cartridge for fine-caliber weapons has also been achieved, where the proportion of toxic substances in the combustion gases from the cartridge's ignition and propulsion kits during firing has been eliminated or greatly reduced while the cartridge's performance is maintained or improved.

Characteristic of the cartridge is that the cartridge comprises a lead-free lead-free a lead-free sleeve and propellant, an ignition device comprising a zinc-free igniter, a lead-free projectile.

According to the present invention there has also been provided a method of reducing wear between a projectile, comprising a cemented carbide core wholly or partially enclosed by a mesh in a mesh, and a weapon wherein the amount of environmentally hazardous gases and metal particles generated upon launching the projectile from the weapon, is reduced while maintaining or improving the performance of the projectile, the core of the projectile being formed with a front core portion constituting the penetrator portion of the projectile, and a rear core portion constituting the ballast portion of the projectile. 10 15 20 25 30 35 536 525 Characteristic of the process are; - that the front and the rear core part are releasably arranged with each other via a radial joint guided between the front and rear core part 'for mutual freedom of rotation - that the rear core part is formed with a cylindrical part and a conical part so that the contact surface between the cylindrical part and the inside of the weapon when firing the projectile constitutes less than 30% of the total surface of the projectile _ that the distance (L fl q between the projectile's center of gravity TP, the interval O, 55Lüx S L fl šO, 6OLwt According to the invention, the thickness of the shell is made thicker on the part of the projectile that is in the barrel, contact with the inside of the weapon that the intermediate shell part (12) is surface treated by sulphation. to minimize wear in the weapon, that at least 30% of the rear core part is designed as a truncated cone, that the sheath is formed with inner longitudinal grooves or grooves to prevent rotation of the front and rear core portions of the projectile within the sheath, the sheath being formed with outer longitudinal grooves or grooves to reduce wear between the projectile and the barrel of the weapon, the sheath is designed with outer transverse grooves or grooves to reduce wear between the projectile and the barrel of the weapon.

BENEFITS AND EFFECTS OF THE INVENTION The invention entails a number of advantages and effects of which the most important are: By replacing environmentally hazardous heavy metals, such as lead in all different parts of the cartridge with harmless metals such as steel, the negative impact of lead on the environment can be eliminated. eliminates the need for remediation measures for the restoration of the environment.

By designing the projectile so that the friction between the inside reduces the air resistance of the projectile and the barrel while the projectile is reduced, the amount of environmentally hazardous metal particles and dust from the projectile can be reduced while ballistics and the projectile's performance are improved.

By designing the cartridge's ignition and drive kit so that the proportion of toxic substances in the combustion gases from the weapon is eliminated or reduced, the risks to the shooter and to the people in the environment can be greatly reduced.

The projectile's modular structure with a two-part core with freedom of relative rotation between the cores, enables easy and quick adaptation, assembly / replacement, of the front core with regard to different environmental and performance requirements that may be imposed on the projectile for different applications.

For example, a projectile configuration can be selected where the hardened steel and the rear core part / ballast front core part / penetrator are made of, or tungsten carbide, are made of cheaper uncured steel. 10 15 20 25 30 35 536 525 The projectile's modular construction with a three-part casing enables easy and quick assembly via shrinkage or threading of the various casing parts with regard to the requirements placed on the casing.

For example, a jacket design can be chosen where the intermediate part of the jacket is made of a softer metal, while the front and the rear jacket part. is made of a harder metal.

Through the mentioned changes of the cartridge and of the projectile, the safety of the shooter and of people in the vicinity is increased. For example, the safety distance to the weapon can be reduced as well as the requirements for ventilation in firing ranges, which means environmental benefits and cost savings.

Additional advantages and effects of the invention will become apparent upon study and consideration of the following detailed description of the invention when taken in conjunction with the accompanying drawings; Fig. 1 schematically shows a longitudinal section of a cartridge comprising a projectile, a propellant, an igniter and a sleeve, Fig. 2a schematically shows a longitudinal section of a projectile comprising a projectile core and a jacket.

Fig. 2b schematically shows a special embodiment of the cylindrical part of the projectile core in Fig. 2 a, formed with longitudinal grooves.

DETAILED DESCRIPTION OF THE EMBODIMENT An overall object of the present invention is, as previously mentioned, to eliminate or greatly reduce the proportion of environmentally hazardous heavy metals in different parts of a cartridge and to reduce the proportion of toxic substances, gaseous as well as particulate, which are formed by combustion of cartridges. ignition and drive kits, while maintaining or improving the performance of the cartridge.

Historically, the focus on product development for fine-caliber ammunition has mainly been focused. on improving the performance of ammunition. Only recently has the impact of ammunition on the environment been studied.

Completely lead-free, civilian or military fine-caliber ammunition constitutes a relatively small niche in today's market, however, the market is growing rapidly. Historically, heavy metals, such as mercury and lead, especially lead, have been and still are the most common type of material in cartridge designs.

It is not entirely clear how a lead-free cartridge works in ballistic terms, in the weapon, in the runway or in the target.

At present there is only one 5.56x45 mm lead-free cartridge, which is NATO-qualified, namely; NAMMO: 5.56x45 mm Ball Non Toxic design AC / 225-128A). 4 High Performance (NATO To succeed in reproducibly manufacturing a new lead-free cartridge with a fully sheathed steel core with new lead-free in the igniter cap, that or components in the ignition chain, in the propellant, and in the projectile so that the emissions of toxic heavy metals are eliminated while performance is maintained or improved, it is not enough to change materials, but design changes to the projectile are also required.

Figure 1 shows a preferred embodiment of a cartridge 1 according to the invention. gunpowder charge 2, The cartridge 1 comprises a lead-free a lead-free igniter 3, a lead-free sleeve 4 and a lead-free projectile 5. The gunpowder charge 2 an extruded gunpowder preferably comprises free of single base gunpowder harmful heavy metals. impregnated and surface treated in an environmentally friendly process in water. 6 free harmful heavy metals and zinc peroxide for reducing The ignition device 3 comprises an igniter from the proportion of toxic substances in the combustion gases.

The choice of powder type and ignition set 6 has been made with the intention, partly that the combustion gases, the proportion of substances and partly the ballistic properties of the projectile. to minimize toxic that the Cartridge Sleeve 4 is and to match the standard type free of environmentally hazardous heavy metals.

Experimental experiments show that said propellant means a reduction of the proportion of ammonia in the combustion gases by more than 50%, the proportion of hydrogen cyanide by about 75% and the proportion of copper by about: 40%, compared with a conventional propellant. Experimental experiments also show that said igniter means a reduction of the proportion of zinc in the combustion gases by about 50%, compared with an igniter which comprises zinc peroxide.

Figure 2 shows a preferred embodiment of a projectile 5 according to the invention. The projectile 5 comprises a core 6 in cemented carbide, completely or partially enclosed by a jacket 10 in a metallic material.

The core 6 is divided into two core parts, a front core part 7, constituting the projectile and. a rear core part 8, the core parts 7,8 are releasably joined to each other radial freedom of rotation between 6 penetrators, constituting the ballast of the projectile 6. The two designed for meaning 7.8. of a locking via a guide 9 the core parts The guide 9 can, for example, be constituted and an openable friction coupling. Other types of connections are also possible to use.

The core's 6 nm structure means that different core parts can easily be combined depending on the target type. 53 1025 For example, the front core part 7 may comprise tungsten carbide for target types where high demands are placed on the penetration ability of the projectile 5. The modular structure (TP) can be easily adjusted by combining different core parts' with length width which means optimization of ballistics in Joining the core parts 7,8 is done via a radial also means that the projectile's center of gravity different design, etc., simpler projectile flight path. which entails and interconnection control freedom of rotation.

The two core parts 7,8 are designed to minimize the contact surface between the projectile 5 and the inside of the weapon for wear, thereby reducing the amount of metal particles released from the projectile 5 in connection with the projectile 5 beeping. designed for pushing out of a At the same time, the rear core part 8 is to reduce the air resistance of the projectile 5 and thereby improve the outer ballistics of the projectile 5. The front core part 7 is designed as an elongate cone 5, which constitutes approximately half the total length Lwt of the projectile 5. The rear core part 8 comprises partly a cylindrical part and partly a cone-shaped part with the cone angle a. The length Lk of the cone-shaped core part amounts to a maximum of 0.24 x L flfl and cone angle 0 a must be in the range 5-9 , optimal, air resistance is 6 ° +/- 0, 1 °. at the lowest possible The cylindrical portion of the rear core part 8 is slightly conical with a cone angle α in the range 0 ° <a <1 °, preferably 0.55 °. The reason is that the cone shape reduces the dullness between the core 6 and the shell 10, which reduces the frictional forces between the projectile 5 and the barrel of the weapon.

However, a short cylindrical portion causes a sharp reduction in the internal friction surface between. the rear core part 8 and the shell 10, which poses a problem because the core 6 can then have a different rotational speed 12 5 15 20 25 30 35 536 525 than the shell 10, which makes the projectile 5 unstable. In order to prevent different rotational speeds and thus the risk of instability, the core 6, in a special embodiment figure 2 b, has been provided with longitudinal grooves 14 or grooves. The grooves 14 provide an increased friction between the core 6 and the nut 10 and act as a rotation lock and ensure that the core 6 rotates therewith as a friction joint. The joint is the same speed as the jacket 10. 0.15 X LC.

The track length of the core 6 sheath 10, for example when the sheath 10 has come loose after impact against a hard target alt. should be at least When missing, when the jacket 10 is not yet mounted, however, there is no rotation lock between the tip of the projectile, i.e. the front core part 8, and the rear core part 8. Between the tip and the core 6 there is radial control and freedom of rotation. from a manufacturing point of view, since the grooves 14 function as a groove 14 also means an advantage from tools when mounting core 6 and jacket 10.

The projectile's 5 outer ballistics / flight capability are largely determined by the projectile's 5 center of gravity TP.

For a projectile 5 of caliber 5.56, the distance (Iw fl center of gravity TP, between the ideal of the projectile 5 and the projectile shall be in the range: Or 55Ltot S LTP S OIGO-Ltot Furthermore, the length LC of the rear core part 8 cylindrical part shall be nwjligt and lie in the range 0.25 Ltot S LC S 0.31 Ltot ie a hardened The front core part 7, made in hardness of Ininst 500 Hv3. Also other materials, such as the rear core part 8 are, preferably, made of a steel with a maximum hardness of 160 HV3.

The projectile shell 10 is, preferably, made of a standard material based on copper, also called tombac. Preferably, the tombac jacket 10 comprises a mixture of 90% copper and 10% zinc. In an alternative embodiment, the jacket comprises at least 90% steel plated with a thin layer of copper. The jacket 10 is manufactured, preferably, via a standardized method, for example, by cold pressing and upsetting.

In order to minimize the emission of metals to the environment, the thickness of the jacket 10 is greatest on the cylindrical part of the jacket 10, i.e. on the part of the jacket 10 which is in contact with the inside of the barrel when launching the projectile 5.

The thickness of the jacket 10 is suitably optimized by making it thicker on the cylindrical part of the jacket where twice as thick as with the other parts of the jacket 10. the wear against the barrel takes place, preferably. In a special embodiment the jacket 10 is divided into a front jacket part 11 jacket part 12 and jacket part 13, the jacket part 12 is at least twice as thick as the front and the rear jacket part 12,13. a rear one in which the intermediate The three component parts are formed. of three separate components, which can be joined to the core of the projectile 5, for example, via shrinkage, welding or threading. The advantage of a modular jacket 10 is, as with a modular core 6, that the jacket 10 can be easily designed with regard to different ballistic and environmental requirements that it can be placed on the projectile 5. The jacket part 12 can, for example, be intermediate 11 and the rear jacket part 13 are formed of a non-metallic material, for example a composite material. 14 10 15 20 25 30 35 536525 different mantle parts different ways. The mantle part 12 is worn in the barrel, tinning. Furthermore, the 11,12,13 can be surface-treated on. air resistance in the track. one further sheath 10 In a further special embodiment of the sheath 10 inner longitudinal grooves or grooves, not shown, to prevent rotation, of the core 6 of the projectile 5 inside the sheath 10, compare the previously described special embodiment of the cylindrical part of the core with grooves 14 or grooves of the same effect. a jacket 10 In a further special embodiment of the jacket 10 comprises outer longitudinal grooves or grooves, not shown, for reducing the wear between the projectile 5 and the barrel of the weapon. a jacket 10 In a further special embodiment of the jacket 10 comprises outer transverse grooves or grooves, not shown, for reducing the wear between the projectile 5 and the barrel of the weapon.

The projectile's and rear projectile's higher strength has in experiments shown design with extended contact surface in optimized core part, smaller combination with reducing the proportion of metal particles from the projectile with 10-20% ballistic properties has been improved. at the same time as the projectile For example, the projectile's velocity in the trajectory has been reduced at the same time as the penetration during sheet metal shooting is very good up to at least 725 m.

The described configuration means that the projectile when tested according to NATO standard can penetrate a steel plate 15 10 l5 20 25 536525 with a thickness of 3.5 mm 99-124 HB) (SAE 1010/1020 with a hardness of at a distance of at least 725 m which is 27% better than what is required by NATO standards at shooting distances of 570 m.

The improved ammunition, including projectiles, has in trials been shown to meet internal, external and terminal ballistic requirements and other requirements according to NATO STANAG 4172 and NATO Multi Manual Of Proof PFP (NAAG-LG / l-SG / l) D (2004) 1 caliber 5.56. & Inspection for military ammunition This means that the ammunition meets the high requirements of NATO for precision, pressure level, temperature, ballistic trajectory conformity and safety when used in functional weapons.

The invention is not limited to the embodiments shown but can be varied in various ways within the scope of the claims. It is understood, inter alia, that the number, size, choice of material and shape of the materials and details of the ammunition which are important for the invention, for example propellant, igniter, can be adapted with respect to each other and with regard to other elements and details of the ammunition. 16

Claims (1)

1. 0 15 20 25 30 35 536525 CLAIM 1. Lead-free projectile (5), of length Lwt, for fine-caliber weapons, comprising a carbide core (6), wholly or partly enclosed by a metal sheath (10), the projectile (5) is designed for a lower friction between the projectile (5) and the weapon when launching the projectile (5), so that the amount of metal particles and environmentally hazardous gases from the projectile (5) is reduced, the core (6) of the projectile (5) comprising a front core part (7) penetrator part and a rear core part (8) constituting the ballast part of the projectile (5) of the projectile (5), characterized in that the front and the rear core part (7,8) are detachably connected to each other via a radial guide (9) designed for relative freedom of rotation between the front and rear core part (7, 8), that the rear core part (8) comprises a cylindrical core part with length LC and a conical core part with length Lk, the angle o: for the conical core part being in the range 5 ° - 9 °, and va in the case of the contact surface between the jacket (10) of the cylindrical core part and the inside of the weapon 1 constituting less than 30% of the total area of the projectile (5), that the distance (LTP) between the tip of the projectile (5) and the center of gravity TP of the projectile (5) is in the range 0 .55Ltot š LTPS 0.60Ltot the length LC of the cylindrical part of the rear core part (8) is in the range 0.25Ltot S LC S 0.3lLtot. . Lead-free projectile (5) according to claim 1, characterized in that the rear core part (8) comprises at least 90% uncured steel. . Lead-free projectile (5) according to claim 1, characterized in that the jacket (10) comprises at least 90 s of steel plated with a thin layer of copper. Unleaded projectile (5) according to claim 1, characterized in that the jacket (10) is divided into a front jacket part (11), an intermediate jacket part (12) and a rear jacket part (13), the thickness of the intermediate jacket part (12) is at least twice as thick as the thickness of the front shell part (11) and the rear shell part (13) and that the three shell parts (11,12,13) form three separate components joined together on the core (6) of the projectile (5) via shrinkage or threading. Unleaded projectile (5) according to claim 1, characterized in that the intermediate shell part (12) is surface treated by sulphation to minimize wear in the weapon. Unleaded projectile (1) according to claim 1, characterized in that at least 30% of the rear core part (8) is cone-shaped. Unleaded projectile (5) according to claim 1, characterized in that the jacket (10) comprises inner longitudinal grooves or grooves for preventing rotation of the front and rear core parts (7,8) of the projectile (5) inside the jacket (10). Unleaded projectile (5) according to claim 1, characterized in that the jacket (10) comprises outer longitudinal grooves or grooves for reducing the friction between the projectile (5) and the weapon. Lead-free 536525 projectile (5) according to claim 1, characterized in that the jacket (10) comprises outer transverse grooves or grooves for reducing the friction between the projectile (5) and the weapon. Lead-free cartridge (1) for fine-caliber weapons, where the proportion of toxic substances in the combustion gases from the ignition and propulsion kits of the cartridge 1 during firing has been eliminated or greatly reduced or improved, characterized in that the cartridge (1) comprises a lead-free propellant (2), a lead-free igniter (3) comprising a zinc-free igniter (6), a lead-free sleeve (4) and a lead-free projectile (5), the projectile (5) being designed according to any one of claims 1 to 9. Method for reducing the wear between a projectile (5 ), comprising a cemented carbide core (6) completely or partially enclosed by a metal sheath (10), and a weapon, thereby reducing the amount of environmentally hazardous gases and metal particles generated when the projectile (5) is fired from the weapon, thereby reducing the projectile (5). ) core (6) is formed with a front core part (7) constituting the penetrator part of the projectile (5), and a rear core part (8) constituting the ballast part of the projectile (5), characterized in that the front and the rear core part (7,8) join they are arranged with each other via a radial guide releasably (9) for mutual freedom of rotation between the front and rear core part (7,8), that the rear core part (8) is formed with a cylindrical part and a conical part so that the contact surface between the cylindrical part the shell (10) and the inside of the weapon (1) when firing the projectile (5) constitute less than 30% of the total area of the projectile (5), that the distance (Lw) between the tip of the projectile (5) and 19 The center of gravity TP of the projectile (5) is selected in the range 0, 55Lt ,, t S LTPSO, 60Lt0t, that the length LC of the cylindrical part of the rear core part 8 is selected in the interval Ltot S LC SO, 311113013. 12. A method according to claim 11, characterized in by making the thickness of the mantle (10) thicker on the part of the projectile (5) which is in contact with the inside of the barrel of the weapon. Method according to Claim 11, characterized in that the intermediate jacket part (12) of the projectile (5) is surface-treated by sulphation to minimize wear in the weapon. Method according to claim 11, characterized in that at least 30% of the rear core part (8) is designed as a truncated cone. Method according to claim 11, characterized in that the jacket (10) is formed with inner longitudinal grooves or grooves for preventing rotation of the front and rear core parts (7,8) of the projectile (5) inside the jacket (10). Method according to claim 11, characterized by the sheath (10) longitudinal grooves or grooves for reducing the design of the external wear between the projectile (5) and the barrel of the weapon. Method according to Claim 11, characterized in that the jacket (10) is formed with outer transverse grooves or grooves for reducing the wear between the projectile (5) and the barrel of the weapon. 20