High-tech warfare is not the only form of warfare in use today. Army contact is also unavoidable. According to data, in the past two years, in addition to the original infantry tank coordination and special infiltration, the army has also adopted high-tech combat methods such as long-range drone bombing.
Nowadays, vehicles on the battlefield, including Jeeps, personnel carriers, anti-aircraft artillery vehicles, and other light transport units, must undergo external armor modification to increase soldiers’ survival rates. Armor cannot do without high-quality armor steel.
Various types of projectiles with varying distances and calibers, along with explosives, will impact armored steel during wartime use. Instantaneous armor steel can withstand tremendous kinetic energy, fragments, impacts, and energy gathering effects. Upon impact or bombing, armored steel will experience deformation, rupture, and even gasification. For this reason, we require armored steel to have extremely high ballistic resistance. Armour steel’s anti-ballistic performance is actually the ability to resist projectile penetration, impact, and collapse.
The anti-penetration capability refers to the maximum kinetic energy impact velocity at which the armor steel will not be penetrated under a certain thickness of armor steel and the angle of impact of the projectile.
2024 年 9 月 9 日
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