How to avoid the 10 error of the injection mold gate design

Contradictions may arise when selecting a mold gate design. Comprehensive consideration and flexibility should be based on actual conditions and experience. Mold gate location is one of the key factors in product quality.

The gate is set according to the geometry and structure of the product. It should be placed in a location that is easy to understand and does not affect the appearance of the plastic part.

The gate should be placed on the assembly surface. Avoid asking for a higher surface. The number of gates requires CAE flow analysis.

The melt directly injects the core to bend the core. It also has an effect on the mold insert. The melt flows into the cavity or core curved flow. Avoid jetting phenomena. As figure show：

When the molten material enters a region where the wall thickness varies greatly. The front edge of the thin-walled area will slow down or even stagnate. Until the thick wall is full. Such a gate design can cause sink marks on the surface of the plastic part.

As the picture shows. The gate is set at the maximum wall thickness.

Take the 90° pipe mold as an example. AS figure A. Set the gate position on the inside of the elbow. The purpose is to make the gate position of the mold consistent with the center of the mold to avoid the gate offset of the mold. But the test results show that. Since the curved core is subjected to the injection force, the core is pushed to the opposite side, so that the pipe cannot be molding. Set the gate position on the back of the elbow. As figure B.

The number and location of the gates should satisfy the maximum flow length/wall thickness ratio. Avoid filling the cavity difficult. The melt process should be minimized and flow direction changes minimized to reduce energy loss.

As shown in Figure (a). The process L5 is long, the flow direction changes a lot, and the filling condition is poor. It is not conducive to exhaust. It often causes defects such as lack of material or bubbles at the top of the product.

Figure (b) shows the direct gate and the process L2 is short.

Each corner of the cavity can be filled with molten material at the same time. The plastic is melted at the optimum temperature.

The gate position should be placed at the thickest part of the wall thickness of the product to facilitate the feeding of the melt. Reduce the microcosm produced by the product, shrink the hole.

For example, the gating system of the part is designed as a side gate. The product trapped gas. The gating system should be changed to a point gate. Feeding from the top facilitates venting and feeding. The mold should not be a Half structure. It should be the overall cavity. Three-opening or hot runner mold for two-point gates.

The gate design is based on the plastic part structure to determine the feed direction of the gate. Consider the resistance and exhaust conditions during molding. Avoid weld line on plastic parts.

The gate setting should not affect the appearance and use of the plastic parts.

These 10 small details can prevent errors from happening. Helpful for inexperienced designers. Properly setting the gate can improve the quality of the plastic part. Avoid welds, dents, etc. in plastic parts.

If you have questions about injection molds, please feel free to contact us.