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Intro to Plastics: Flash in Injection Molding

Flash not only impacts the appearance of a part but can also compromise its functionality, potentially hindering the proper assembly of finished components. Courtesy of Protolabs.
Flash not only impacts the appearance of a part but can also compromise its functionality, potentially hindering the proper assembly of finished components. Courtesy of Protolabs.

Flash is a common defect in injection molding that can be effectively resolved once its root causes are identified. Below are the primary causes along with their potential solutions.

In injection molding, flash refers to a thin layer of excess material that forms around the edges of a molded part, especially along the parting lines, ejector pin locations, or near inserts. Flash occurs when molten plastic leaks out of the mold cavity, usually due to issues with clamping, machine settings, or mold wear.

You can also read: Sandwich Injection Molding to Increase Post-Consumer Recycled Content

Causes of Flash

  • Insufficient Clamping Force: If the mold isn’t held together with enough pressure during the injection, gaps form, allowing plastic to escape.
  • Mold Misalignment or Wear: Over time, molds can degrade or become misaligned, leading to gaps where plastic can leak out. Even minor deviations can cause flash to form.
  • High Injection Pressure: Excessively high injection pressure forces the molten material into tiny gaps in the mold, resulting in flash.
  • Poor Mold Design: Molds lacking tight tolerances or designs that don’t account for shrinkage, venting, or part geometry can be prone to flash issues.

Prevention Tips

  • Optimize Clamping Force: ENGEL, leader in injection molding solutions, emphasizes the importance of setting the correct clamping force. Insufficient pressure can lead to flash, while too much pressure risks mold damage. The proper balance prevents leakage without stressing the mold​.
  • Regular Maintenance: Routine inspection of molds is essential to spot wear or damage early. Companies like ENGEL recommend preventive maintenance to avoid mold degradation that leads to flash formation​.
  • Adjust Injection Pressure: Fine-tuning injection pressure is another key solution. The material can seep into undesired spaces if too much pressure is applied. Optimizing both pressure and injection speed can reduce the likelihood of flash​.
  • Mold Alignment and Design: Ensuring molds are well-aligned during setup is crucial for reducing flash. ENGEL also advises using high-precision molds with minimal tolerances and well-planned venting​.

Maintaining the correct clamping force, performing regular mold maintenance, optimizing pressure settings, and ensuring accurate mold design are key strategies to significantly reduce and control flash formation in injection molding.

To read more ENGEL Tips for process optimization in injection molding click here.

By Juliana Montoya | September 26, 2024

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