Reasons for the failure of injection molding products and their elimination

1. The equipment is not properly selected.

When using the equipment, the maximum injection volume of the injection molding machine must be greater than the total weight of the plastic parts and nozzles, and the total weight of the injection can not exceed 85% of the plasticizing amount of the injection molding machine.

2. Insufficient supply.

At present, the commonly used method for controlling feeding is a fixed volume feeding method, in which the amount of the roll material is uniform with the fruit particles of the raw material, and there is no "bridge" phenomenon at the bottom of the feeding port. If the temperature at the feeding port is too high, it will also cause poor material feeding. In this regard, the feed port should be dredged and cooled.

3. The material has poor fluidity.

When the fluidity of raw materials is poor, the structural parameters of the mold are the main reasons for the lack of injection. Therefore, the stagnation defects of the mold casting system should be improved, such as the proper placement of the runner, the expansion of the gate, the size of the runner and the injection port, and the use of larger nozzles.

At the same time, an appropriate amount of additives can be added to the raw material formulation to improve the flow properties of the resin. In addition, it should also check whether the recycled materials in the raw materials are excessive, and appropriately reduce the amount.

4, the lubricant is excessive.

If the amount of lubricant in the raw material formulation is too large, and the gap between the anti-reverse ring of the injection screw and the barrel is large, the backflow of the melt in the cylinder may cause insufficient supply, resulting in a low injection. In this regard, the amount of lubricant should be reduced and the gap between the barrel and the shot screw and the check ring should be adjusted to repair the equipment.

5. The cold material impurities block the material channel.

When the impurities in the melt block the nozzle or block the cold material

When the gate and runner are in the way, the nozzle should be folded down to clean or enlarge the cold hole and runner section of the mold.

6. The design of the gating system is unreasonable.

When a multi-cavity is used, the appearance of the plastic parts is often unreasonable due to the unreasonable design of the gate and sprue balance. When designing the pouring system, pay attention to the balance of the gate. The weight of the plastic parts in each cavity should be proportional to the size of the gate, so that the cavity can be filled at the same time. The gate position should be selected at the thick wall, and the runner can also be used. Balanced layout design. If the gate or runner is small, thin, and long, the pressure of the melt is too large along the path during the flow, and the flow is blocked, which is prone to poor filling. In this regard, the flow passage section and the gate area should be enlarged, and if necessary, a multi-point feeding method can be employed.

7. The mold is poorly exhausted.

When a large amount of gas remaining in the mold due to poor exhaust gas is squeezed by the flow material to generate a high pressure greater than the injection pressure, the melt is prevented from filling the cavity and causing a low injection.

In this regard, it should be checked whether the cold material hole is set or its position is correct. For the mold with deep cavity, the exhaust groove or vent hole should be added in the unfilled part; on the clamping surface, the depth can be opened. For venting slots of 0.02~0.04mm and width of 5~10mm, the venting holes shall be placed at the final filling of the cavity. When using materials with excessive moisture and volatile content, a large amount of gas is also generated, resulting in poor mold discharge. At this time, the raw materials should be dried and the volatiles removed.

In addition, in the process operation of the mold system, it is possible to improve the exhaust failure by increasing the mold temperature, reducing the injection speed, reducing the flow assist of the pouring system, reducing the mold clamping force, and increasing the mold gap.

8. The mold temperature is too low.

After the melt enters the low temperature cavity, it will not be able to fill all corners of the cavity due to the cooling too fast. Therefore, the mold must be preheated to the temperature required by the process before starting the machine. When starting up, the throughput of the cooling water in the mold should be properly controlled. If the mold temperature does not rise, check if the design of the mold cooling system is reasonable.

9. The temperature of the melt is too low. Generally, in the range suitable for molding, the temperature of the material and the length of the filling are close to a proportional relationship, and the flow performance of the low-temperature melt is decreased, so that the length of the filling is shortened. When the material temperature is lower than the temperature required by the process, check that the barrel feeder is intact and try to increase the barrel temperature.

At the beginning of the machine, the temperature of the barrel is always lower than the temperature indicated by the barrel heater meter. It should be noted that after the barrel is heated to the temperature of the meter, it needs to be warmed for a while to start. If it is necessary to take a low-temperature injection in order to prevent the melt from decomposing, the injection cycle time can be appropriately extended to overcome the deficiencies. For a screw type injection molding machine, the temperature of the front section of the barrel can be appropriately increased.

10, the nozzle temperature is too low, in the injection process, the nozzle is in contact with the mold, because the mold temperature is generally lower than the nozzle temperature, and the temperature difference is large, the frequent contact between the two will cause the nozzle temperature to drop, resulting in the melt in the nozzle Frozen at the place.

If there is no cold hole in the mold structure, the cold material solidifies immediately after entering the cavity, so that the hot melt blocked in the back cannot fill the cavity. Therefore, the nozzle should be separated from the mold when the mold is opened, and the influence of the mold temperature on the nozzle temperature is reduced, so that the temperature at the nozzle is kept within the range required by the process.

If the nozzle temperature is low and does not rise, check the nozzle heater for damage and try to increase the nozzle temperature. Otherwise, the pressure loss of the material will cause too much.

11, injection pressure or insufficient pressure

The injection pressure and the filling length are close to a proportional relationship, the injection pressure is too small, the filling length is short, and the cavity filling is not full. In this regard, the injection pressure can be increased by slowing down the speed of injection and appropriately extending the injection time.

In the case where the injection pressure cannot be further increased, it can be remedied by increasing the temperature of the material, lowering the viscosity of the melt, and improving the melt flow property. It is worth noting that if the material temperature is too high, the melt will thermally decompose, which will affect the performance of the plastic parts.

In addition, if the holding time is too short, it will also lead to insufficient filling. Therefore, the dwell time should be controlled within a suitable range, but it should be noted that too long dwell time will cause other failures, and the molding should be adjusted according to the specific conditions of the plastic parts.

12, the injection speed is too slow

The injection speed is directly related to the filling speed. If the injection speed is too slow, the melt filling is slow, and the low-speed flowing melt is easily cooled, causing the flow property to further decrease to cause a low note.

In this regard, the injection speed should be appropriately increased. However, it should be noted that if the injection speed is too fast, it is easy to cause other molding failures.

13, the structural design of plastic parts is not reasonable

When the thickness of the plastic part is not proportional to the length, the shape is very complicated and the forming area is large, the melt is easily blocked at the entrance of the thin part of the plastic part, making the cavity difficult to fill. Therefore, when designing the shape structure of the plastic part, it should be noted that the thickness of the plastic part is related to the limit flow length of the melt filling.

In injection molding, the thickness of the plastic part is 1~3mm, and the large plastic part is 3~6mm. The recommended minimum thickness is 0.5mm, cellulose acetate and cellulose acetate butyrate 0.7mm. Ethylcellulose plastic 0.9mm, polymethyl methacrylate 0.7mm, polyamide 0.7mm, polystyrene 0.75mm, polyvinyl chloride 2.3mm. In general, the thickness of the plastic part exceeding 8 mm or less than 0.5 mm is unfavorable for injection molding, and such a thickness should be avoided in design.

In addition, in the process of molding complex structural plastic parts, the necessary measures must be taken in the process, such as reasonable determination of the position of the gate, appropriate adjustment of the flow path layout, increase of injection speed or use of rapid injection, increase of mold temperature or use of flow A resin with good performance.