Creating IML anti-theft food container moulds starts with high‑grade P20 or H13 steel. The cavity of IML anti-theft food container moulds is machined with 5‑axis CNC. The latch area on IML anti-theft food container moulds requires extra polishing to prevent sticking.

Mold flow analysis for IML anti-theft food container moulds ensures even filling around the lock feature. The cooling channels in IML anti-theft food container moulds are placed close to the latch. A 3‑second cycle time for IML anti-theft food container moulds is typical for thin‑wall applications.

The label carrier system of IML anti-theft food container moulds uses electrostatic charging. Static electricity holds the label in place during mould closing. For IML anti-theft food container moulds, label thickness must be within 0.05mm variation.

The ejection system of IML anti-theft food container moulds uses air poppets to avoid marking the label. Robot grippers for IML anti-theft food container moulds must align with the container’s geometry. After ejection, IML anti-theft food container moulds allow stacking of finished containers.

A servo‑driven turntable for IML anti-theft food container moulds increases productivity. The mould base for IML anti-theft food container moulds is often supplied by a standard manufacturer. Hardened pins in IML anti-theft food container moulds resist wear from the label edge.

IML anti-theft food container moulds with interchangable cavities allow size changes. The cost of IML anti-theft food container moulds is higher than plain moulds due to the lock feature. However, the security benefit justifies the investment in IML anti-theft food container moulds for premium brands.