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| * Click on an image to enlarge it in a new window * |
| | .jpg) | Injection molding involves a process where the rubber is introduced into the mold through an injection nozzle and then injected into each cavity through a rubber system, gates, or transfer sprues. The injection process is semi-automated and requires the least amount of material handling of any of the three rubber molding processes. The advantages of injection molding include: tighter tolerances, ability to utilize faster cycle times and semi-automation to reduce part costing. The negatives of injection molding include: typically the most expensive tooling option; higher machine rate costs due to equipment higher equipment costs.
- High volume parts
- Precision molded components
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| | .jpg) | The advantages of injection molding include: tighter tolerances, ability to utilize faster cycle times and semi-automation to reduce part costing. The negatives of injection molding include: typically the most expensive tooling option; higher machine rate costs due to equipment higher equipment costs. | |
| | | |
| | .jpg) | The injection process is semi-automated and requires the least amount of material handling of any of the three rubber molding processes. | |
| | | |
| | .jpg) | * High volume parts
* Precision molded components | |
