Ammunition ZKO-70 "Tiny"

Designed for use with UAVs with a payload capacity of 1 kg or more and employed to engage armored fighting vehicles, tanks, self-propelled artillery systems, and other armored enemy assets.

The warhead is an “explosively formed penetrator” (EFP), featuring strong armor-piercing capability and a long effective stand-off engagement distance (from 1.5 to 20 m). It is used against lightly armored vehicles (SPGs, IFVs, APCs) protected by anti-shaped-charge and anti-drone countermeasures.

An explosively formed penetrator is the destructive element of a shaped-charge munition, formed during the detonation of a specially designed explosive charge and intended to penetrate armor or other solid barriers.

Operating Principle

The system is based on the directed explosion effect. Inside the munition there is a metal liner (most commonly copper) shaped like a concave disk.

During detonation of the explosive:

• The blast wave collapses the metal liner.

• The metal deforms and forms into a compact, high-velocity projectile — the penetrator.

• This penetrator accelerates to extremely high speed (several kilometers per second) and travels along the axis of the charge.

• Due to its high kinetic energy, it is capable of penetrating armor and other solid materials.

Features

• Unlike a classical shaped-charge jet, the penetrator maintains its form over longer distances.

• Effective at medium and long stand-off distances from the target.

• Commonly used in anti-tank mines, engineering munitions, and specialized systems.

Main Characteristics

• Liner material: steel

• Velocity: up to 2–3 km/s

• High armor penetration due to energy concentration on a small impact area