What is Plastic Injection Molding?
Plastic injection molding is a manufacturing process where molten plastic is injected into a metal mold cavity, cooled, and then ejected as a solid part. It is ideal for mass production of plastic components with high precision and repeatability.
How the Process Works
Plastic pellets (thermoplastics) are fed into a heated barrel.
The plastic melts and is injected into a mold cavity under high pressure.
The part cools and solidifies in the mold.
The mold opens, and the finished part is ejected.
Key Advantages
High-volume production with consistent quality
Low cost per part at scale
Excellent repeatability
Complex geometries possible
Wide range of materials and finishes
Fast cycle times (seconds to minutes per part)
Common Plastic Materials Used
| Material | Properties | Typical Use Cases |
|---|---|---|
| ABS | Strong, impact resistant | Electronics housings, automotive parts |
| Polypropylene (PP) | Flexible, chemical resistant | Containers, hinges, caps |
| Nylon (PA) | Strong, abrasion-resistant | Gears, automotive clips |
| Polycarbonate (PC) | Transparent, high impact strength | Lenses, shields, electronics |
| POM (Delrin) | Low friction, rigid | Bearings, bushings, precision parts |
| TPU/TPE | Soft, flexible | Grips, seals, overmolds |
Mold Tooling Basics
Molds are typically made from steel or aluminum
Steel molds: expensive but long-lasting (good for millions of shots)
Aluminum molds: cheaper and quicker to machine (good for low-volume or prototypes)
A mold can have:
Single or multi-cavity
Cooling channels for faster cycle times
Ejector pins for automatic part removal
Applications
Automotive: Dashboards, clips, housings
Consumer Goods: Toys, kitchen tools, containers
Medical: Syringes, tubing connectors, casings
Electronics: Remote controls, phone cases, cable housings
Industrial: Enclosures, fittings, tool handles
Cost Considerations
Tooling cost: $2,000 – $100,000+ depending on size and complexity
Per-part cost: Drops significantly with higher volumes
Aluminum molds are cheaper for prototyping
Cycle time affects total cost (shorter = cheaper per part)
Process Summary
| Step | Description |
|---|---|
| 1. CAD Design | 3D model of the part |
| 2. Mold Design | Custom tool made from steel/aluminum |
| 3. Mold Fabrication | CNC and EDM processes to build the mold |
| 4. Injection Molding | Mass production begins |
| 5. Post-processing | Trimming, painting, assembly, QC |
