Tungsten Arms

Tungsten Alloy Military Spheres

Price: 58,00 USD
Tungsten alloy military sphere is widely used for military purposes. It is usually consisted of W-Ni- Fe or W-Ni- Cu or even W-Ni-Cu-Fe, some tungsten alloys also contain Co, Mo, Cr, etc. The product can be manufactured in many sizes. Advantages of Tungsten Alloy Military Sphere Very dense, 1.7 times heavier than lead, tungsten is the ideal metal for military purposes. Tungsten is non-toxic and safe material, so military sphere made of tungsten alloy is often used to replace lead. Owing to its great hardness and resistance to high temperature, it is increasingly adopted for military purposes and defense.. Applications of Tungsten Alloy Military Sphere Tungsten alloy can be used for bullets or pellets in various military applications such as pellets used inside a shotgun shell. Lead shot and bullets have been banned in many areas bullet head tungsten alloy military fittings because of the environmental concerns. The main substitute materials are steel, bismuth and tungsten. The main advantages of tungsten military sphere that is used as pellet is that it is very dense, and very hard. The density allows the pellets to travel longer distances without loosing energy, while the hardness allows the pellets to keep their shape while being accelerated by the powder charge, which increases the muzzle velocity. Tungsten alloy spheres are also used in hand grenade, armor piercing projectile, prefabricated fragments. Tungsten military sphere is small in volume and very dense. Allowing them to penetrate armor and damage targets. Tungsten alloy has been used in missile weapons, armor piercing ammunition, tungsten alloy bullet, shrapnel head, core for armor-piercing bullet measurement, kinetic energy penetrators, armor and shells.

Tungsten Alloy (wolfram) Military Swaging Rod

Price: 650,00 USD
Tungsten Alloy(wolfram) Military Swaging Rod Swaging greatly increases tungsten alloy rod's ultimate tensile strength. The ultimate tensile strength of regular tungsten alloy rod is 1050 MPa . However, after swaging, the ultimate tensile strength can reach 1200 MPa min, we can even control tungsten alloy military swaging rod at 1500 MPa. Tungsten alloy military swaging rod is one of our main products. The composition of tungsten alloy military swaging rod is 90%WNiFe. Our common types: Diameter: 12mm~28mm, Length: less than 400mm; Diameter: 20mm~400mm, Length: less than 500mm. We can manufacture other products according to customers' specific requirements. Tungsten Alloy(wolfram) Swaging Rod Main Properties for Military : * High density * High melting point * Small volume * Excellent hardness * Superior wearing resistance * High ultimate tensile strength * High ductility * High temperature resistance * Low vapor pressure Main Processing of Tungsten Alloy(wolfram) Swaging Rod: 1). Mixing 2). Pressing 3). Sintering 4). Heat treatment 5). Swaging 6). Machining Repeated heat treatment and swaging is performed need at least several times. In this way, tungsten alloy swaging rod can be improved at tensile strength as well decrease elongation and impact toughnes.

Tungsten Alloy(Wolfram) Fragment

Price: 145,00 USD
Tungsten alloy(Wolfram) fragment can be used for military purposes.It control has included providing grooves on either the external or the internal surfaces of the wall of the case or a liner inserted into the case. The grooves create stress concentrations that cause the case to fracture along the grooves forming fragments. While these devices have demonstrated the ability to create it, they are not completely satisfactory for several reasons. It can be widely used in military defense. One prior approach to inducing tungsten alloy fragmentation control to an integral warhead and missile structure has been to include grooves on either the external or internal wall surfaces of the structure to delineate fragments or projectiles in a combined warhead and missile structure. Explosives are installed in proximity to the grooves. When the explosives are detonated, the grooves create stress concentrations that cause the structure to fracture along the grooves, forming tungsten fragments. Still another approach is the dual-wall naturally fragmenting (and combination natural fragmenting and scored wall) warhead. While these types of warheads have provided somewhat of an improvement over single-wall naturally fragmenting warheads, current dual-wall designs generally require thermal conditioning manufacturing methods to mate walls together with tight circumferential tolerances. We can provide different size tungsten alloy fragment according to your requirement, tungsten fragment is one of our leading products.

Tungsten Small Caliber Core for AP Bullets

Price: 2,90 USD
Tungsten alloy, also called tungsten for short, is used as a new lead-free small caliber core for national defense. Small caliber cores rages from 9mm to 0.50 caliber including 5.56mm, 7.62mm, 9mm, 0.38 and 0.45 caliber, etc., could be produced by tungsten mixtures metal with the same techniques used for the construction of lead-containing bullets but without any poison to environment. It is just as lethal as the standard core of 5.56mm without harming the environment. The day end the use of environmentally hazardous materials in small caliber cores for all ammunitions is coming. Besides, as a high density metal, tungsten is mixed with the binder such as nickel, iron, copper, cobalt, etc. to produce the components with controlled density and mechanical properties. Powder metal mixtures such as tungsten small caliber core is simply cold pressed to produce a high-density material with superior properties, e.g. high hardness, good ultimate tensile strength, excellent elongation, etc. Main Manufacture Process of Tungsten Small Caliber Core Tungsten small caliber core is manufactured by powder metallurgy technique with some complex process. The main manufacture process is mixing, de-waxing, pressing, sintering, machining, and then move to surface control if there is a need, such as electroplating, engraving, etc. Heat treating is very necessary to achieve the appropriate properties for tungsten small caliber core, elongation would be improved by that process. The combined processes of mechanical interlocking and "cold-welding" bond the metals together, and can be varied to control the properties of the non-lead core. Tungsten small caliber core can be pressed directly to shape, or cores can be produced that can be swaged into projectiles, with or without jacketing. So swaging is another important process for reaching a higher hardness at least 40HRC, meanwhile, ultimate tensile strength could be also increased to at least 1050Mpa. If the properties are needed higher, some of the processes would be adjusted. Tungsten Small Caliber Core Properties: The powder metallurgy approach has the potential not only to produce quality high density, non-toxic cores that are a direct replacement for lead, but also to revolutionize many of the aspects of core design and performance. Customerized tungsten small caliber core is warmly welcomed with high properties as follows: High hardness 40HRC min. (Regular tungsten material only about 28HRC) Excellent ultimate tensile strength 1050MPa min. (Regular tungsten material only about 900Mpa) Non-toxic to the environment Superior machinability

Tungsten Alloy (Wolfram) Cubes for Military Defens

Price: 53,00 USD
The Advantages of Tungsten Alloy (Wolfram) Cubes for Military Defense With its high density, tungsten alloy is the ideal metal for military defense. Tungsten is non-toxic, and environmentally friendly materia. Tungsten alloy cubes for military defense can easily replace lead in most cases. Having more concentrated weight means having more control to achieve the center of mass that you are targeting. Owing to its great hardness and resistance to high temperature, tungsten has been increasingly adopted in military defense increasingly today. We can offer tungsten alloy cubes for military defense in various sizes. We offer the tungsten cubes, rod, ball, cylinder, block, etc. for military usage, such as bombs, armor-piercing bullet, etc. We welcome the opportunity to cooperate with our customers in the design of individual specifications. Our mission is to meet individual customer requirements. Flexibility is our strength and we pride ourselves on being able to find the right solution for every customer. Advantage of Tungsten Alloy (Wolfram) Cubes for Military Defense: 1, High-density 2, High absorption capacity against X-rays and gamma rays 3, Good modulus of elasticity 4, High hardness 5,Environment protection standard

Tungsten Alloy Core for AP Bullets

Price: 3,50 USD
Tungsten alloy, also called tungsten for short, is used as a new lead-free small caliber core for national defense. Small caliber cores rages from 9mm to 0.50 caliber including 5.56mm, 7.62mm, 9mm, 0.38 and 0.45 caliber, etc., could be produced by tungsten mixtures metal with the same techniques used for the construction of lead-containing bullets but without any poison to environment. It is just as lethal as the standard core of 5.56mm without harming the environment. The day end the use of environmentally hazardous materials in small caliber cores for all ammunitions is coming. Besides, as a high density metal, tungsten is mixed with the binder such as nickel, iron, copper, cobalt, etc. to produce the components with controlled density and mechanical properties. Powder metal mixtures such as tungsten small caliber core is simply cold pressed to produce a high-density material with superior properties, e.g. high hardness, good ultimate tensile strength, excellent elongation, etc. Main Manufacture Process of Tungsten Small Caliber Core Tungsten small caliber core is manufactured by powder metallurgy technique with some complex process. The main manufacture process is mixing, de-waxing, pressing, sintering, machining, and then move to surface control if there is a need, such as electroplating, engraving, etc. Heat treating is very necessary to achieve the appropriate properties for tungsten small caliber core, elongation would be improved by that process. The combined processes of mechanical interlocking and "cold-welding" bond the metals together, and can be varied to control the properties of the non-lead core. Tungsten small caliber core can be pressed directly to shape, or cores can be produced that can be swaged into projectiles, with or without jacketing. So swaging is another important process for reaching a higher hardness at least 40HRC, meanwhile, ultimate tensile strength could be also increased to at least 1050Mpa. If the properties are needed higher, some of the processes would be adjusted. Tungsten Small Caliber Core Properties: The powder metallurgy approach has the potential not only to produce quality high density, non-toxic cores that are a direct replacement for lead, but also to revolutionize many of the aspects of core design and performance. Customerized tungsten small caliber core is warmly welcomed with high properties as follows: High hardness 40HRC min. (Regular tungsten material only about 28HRC) Excellent ultimate tensile strength 1050MPa min. (Regular tungsten material only about 900Mpa) Non-toxic to the environment Superior machinability

X10 Tungsten Point for Archery

Price: 6,00 USD
Break-Off is a standard arrowhead equipped with one or more break-offs at its end. This break-off system gives high flexibility for arrow tuning. Shape: Bullet - Shape: This classic form is used very often in Fita target shooting. Through its round shape it is a little gentler to the target and easier to drag out. Material: Tungsten (Wolfram): Tungsten is a brilliant white metal with high hardship, density and consistency. It is about three times as heavy as conventional stainless steel and is used for arrowheads to shift the weight even more into the arrow point. This gives the arrow tuning another advantage. The deposit of tungsten on the surface of the earth is about 0.0001 g/t. Therefore tungsten is a very rare metal and accordingly very expensive. Break-Off Technology: Break-Off points conform the standard arrowheads for carbon arrows with the feature that it is possible to tune the weight. The grooves for the glue, at the shaft of the head, are purposely low- shaped. This prevents the usage of too much glue. Wrong spread glue can cause imbalance. Installation: After about 60 seconds the Break-Off point sticks perfectly together with the carbon shaft .Beforehand the carbon shaft has to be whet from the inside and cleaned with a solvent. 1-2 drops of Bond onto the shaft of the head and push in a rotating movement all the way until it is tight fastened. Run- point accuracy of the arrow point: 0.006 µ Break-Off: The head has one or more break-offs at its end. These break-offs can be broken off at leisure to get the ideal arrowhead weight. Special insertions at the break off area make sure that the tolerance of the weight, after breaking- off a part, is absolutely slight. Tungsten points seems to have three advantages compared to normal points for X10's: 1. They are shorter (by about a centimeter): and hence result in the arrow having a lower side area. 2. They are heavier (by 10 grains): and hence result in a heavier arrow. 3. They seem less likely to bend (certainly compared to the standard points). The stainless steel points will bend simply because they are long compared to the tungsten points, but will bend less than the standard points. This also means that where with standard points you may need to replace them from time-to-time, tungsten points may last for several sets of arrows. Point 3 is important from the point-of-view of longevity of your arrows. If a point bends it is quite likely that the carbon near the front will be damaged, and you may lose an arrow. Points 1 and 2 ultimately mean that with tungsten points the arrow will drift less. By the calculation the drift is reduced by about 3% through the combination of less surface area and higher weight. Not a lot, but every bit counts. Tungsten points are much easier to pull from a wooden target frame. The tungsten points are turned out to be a major enhancement to survivability, especially in windy conditions.

Tungsten Alloy Super Weights for AR15 Heavy Buffer

Price: 3,00 USD
This tungsten alloy super weight for AR15 buffer system is manufactured by inculcating the best quality tungsten alloy and pioneering technology under the vigilance of our adept proficient Offered counterweight is used to balance the rotatory motion Furthermore, we provide this tungsten alloy counterweight in different sizes and other technical specifications as per customer's specific requirements at market leading prices Features: Rugged design and accurate dimension Elevated durability and resistant against corrosion Impressive thermal conductivity and corrosion resistance Low thermal expansion and highly density Low volume and high density and good electrical conductivity Optimum strength and dimensional accuracy Applications: In order to make all kinds of counterweights, tungsten is considered as an ideal raw material Manufactured counterweights have their wide usage in several application areas such as machinery, aircraft, logging industries and many more These are made in varied specifications to be used for different purposes

Tungsten Medium Caliber Core For AP Bullets

Price: 3,50 USD
Tungsten heavy alloy, also called tungsten alloy for short, is used as a new medium caliber core for national defense, such cores are being fabricated from mixtures of powdered metals, and/or coated metal powders or particulates that are consolidated to form dense metallic materials. The primary goal of the project is the development of functional, high density, non-toxic small arms projectiles with controlled impact behavior, i.e. frangibility, for training and field use. Preliminary results have been achieved using cold pressed mixtures of metal powders. Therefore, a king of core materials with properties similar or superior to depleted uranium is badly needed to be fabricated and tested. Tungsten material should be a wonderful replacement. Main Manufacture Process of Tungsten Medium Caliber Core Tungsten medium caliber core is manufactured by powder metallurgy technique with some complex processes. The main manufacture process is mixing, de-waxing, pressing, sintering, machining, and then move to surface control if there is a need, such as electroplating, engraving, etc. Heat treating is very necessary to achieve the appropriate properties for tungsten medium caliber core, elongation would be improved by that process. The powder metallurgy approach is that the composite core materials are completely recyclable. The binder and high-density metals are not chemically bound and the binder metal does not wet the dense constituent. The metals are easily reclaimed from the scrap collected at firing ranges employing simple heat treatments. This will provide a new and less expensive source of raw materials, inevitably lowering cost. Swaging is another important process for reaching a higher hardness at least 40HRC, meanwhile, ultimate tensile strength could be also increased to at least 1050Mpa. If the properties are needed higher, some of the processes would be adjusted. Tungsten Medium Caliber Core Advantages: Tungsten medium caliber core usually rages from 20 mm to 35 mm, used on navy vessels, helicopters, fighter aircraft and anti-aircraft cannons, as well as infantry fighting vehicles, also could used for high quality percussion caps of all types, as well as links for various small- and medium-caliber rounds. Guangxi Chentian Metal Product Co. Ltd could offer tungsten alloy fittings used as a part to tungsten medium caliber core with the following proerpties: High hardness 40HRC min. (Regular tungsten material only about 28HRC) Excellent ultimate tensile strength 1050MPa min. (Regular tungsten material only about 900Mpa) Non-toxic to the environment (superior to depleted uranium core) Superior machinability