ASC 30-Round .223 Rem/5.56 NATO Ammunition Storage Magazine - Durable & Reliable
Ammunition Storage Components
The Zastava 30-round magazine for .223 Rem/5.56 NATO delivers reliable feeding in a durable polymer package built to handle real-world conditions. Whether you're running a ZPAP85 or another 5.56 platform that accepts this profile, this magazine combines lightweight handling with reinforced internals engineered to perform in harsh environments—from sub-zero winters to scorching summer ranges.
Built around a polymer frame, the Zastava magazine doesn't compromise on durability where it counts. The rear locking lug is steel-reinforced to withstand repeated loading and insertion cycles, and the follower and bolt hold open mechanism are similarly fortified with steel components. This hybrid construction keeps weight down while critical stress points stay rigid and reliable.
Temperature testing from -40°F to +140°F confirms consistent strength and resistance to shattering across the full operational spectrum. If you're stocking mags for dedicated training, hunting, or tactical use, Zastava's 30-rounder offers proven performance without unnecessary bulk or cost.
| Caliber | .223 Rem/5.56 NATO |
| Capacity | 30 rounds |
| Material | Polymer frame with steel-reinforced components |
| Finish | Black |
| Bolt Hold Open | Yes |
| Temperature Rating | -40°F to +140°F |
Yes, this magazine is designed for the Zastava ZPAP85 and similar compatible models that accept this profile.
The BHO (bolt hold open) mechanism keeps the bolt locked back after the last round is fired, giving you a clear signal when the magazine is empty—useful for tactical transitions and training.
Yes. The magazine is tested to maintain consistent strength and shatter resistance from -40°F to +140°F, ensuring reliable performance in cold winters and hot climates alike.
The polymer frame keeps the magazine lightweight, while steel reinforcement at the rear locking lug, follower, and bolt hold open mechanism provides durability where stress is greatest during loading and cycling.