Armor Piercing Bullets for Military
Tungsten alloy armor piercing bullet relying on the kinetic energy of the projectile, penetrates armor and destroys the target. Its characteristic is high velocity, long hitting the distance and good accuracy. It used for mutilate tanks, self-propelled guns, armored vehicles, ships, aircraft, or any other armored target.
Tungsten alloy armor piercing shell is a type of ammunition designed to penetrate armor and detonate. They are generally used against body armor, vehicle armor, tanks and other defenses, depending on the caliber of the firearms.
Shells of bullets designed for this purpose have a greatly strengthened case with a specially hardened and shaped nose and a much smaller bursting charge. Some smaller caliber tungsten alloy armor piercing shells have an inert filling, or incendiary charge in place of the HE bursting charge.
The Theory of Tungsten Alloy Armor Piercing Bullets
Tungsten alloy armor piercing bullets are famous for their ability to penetrate target. It is mostly because large kinetic energy and their high tensile strength focused on the target. The bullets are made from the high-density tungsten alloy that is much harder than most armor. All have very hard warheads. Tungsten alloy armor piercing bullets can be used against tanks, armored vehicles and concrete fortifications. When fired, bullets are under the high-temperature, high-pressure gas. Reach the target; it will make a pit in the surface of the armor, red out the armor and the pit bottom at the same time. At this time, although the head has been broken, missile force the powerful impact of inertia, it will continue onrush. When the impact force reaches a certain value, the fuse is triggered; it caused the explosion of the projectile charge. At this time, exploding charge will create tons of pressure per square centimeter in area, killing the crew inside the tank or destroying armored weapons.
How does Tungsten Alloy Armor Piercing Bullets Work?
The most widely used tungsten alloy armor piercing bullets in the world are made of a hardened steel, tungsten alloy, tungsten-carbide, or depleted uranium penetrator enclosed within a softer material, such as copper or aluminum. Tungsten alloy rounds, for instance, take advantage of their high-density material, designed to retain its shape and carry the maximum possible amount of energy as deep as possible into the target.
The tungsten alloy armor piercing bullets fired from rifles are strengthened with a copper or cuprous-nickel jacket, much like the jacket that surrounds lead in a conventional projectile, a jacket which is destroyed upon impact to allow the penetrating charge to continue its movement through the targeted substance.
One of the most famous types of tungsten alloy armor piercing bullets used in the past was the Teflon-coated bullets. Contrary to popular belief, the Teflon coating did not in itself help the bullet penetrate deeper, instead it was meant to help reduce the wear on the barrel after firing hardened projectiles. The strange fact is that this misconception even produced laws that lead to the restricted use of these bullets, eventually leading to their extinction.
The famous example of such a blunder was the assassination attempt on US President Ronald Reagan that took place on March 30, 1981. Then, the shooter used a bullet with a normal revolver, which actually deprived the bullet of its ability, contributing to the bullet missing the heart by less than one inch and piercing his left lung instead, which likely spared his life.
What most people do not realize, is that it is not enough to use tungsten alloy for armor piercing, you must use modified barrel, in order to take advantage of the bullet's piercing abilities.
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