Mold information

The Design of The Air Cooler Mould Determines The Tendency of Warping

Update:26-03-2019
Summary:

Fundamentally, the design of the Air Cooler Mould deter […]

Fundamentally, the design of the Air Cooler Mould determines the tendency to warp. It is difficult to suppress this trend by changing the molding conditions. Finally, the problem must be solved from the design and improvement of the air cooler mould. This phenomenon is mainly caused by the following aspects:

Mold aspect:

(1) The thickness and quality of the parts should be uniform.

(2) The design of the cooling system is to make the temperature of each part of the cavity uniform. The pouring system should make the flow symmetry, avoid the warpage caused by different flow directions and shrinkage, and appropriately thicken the part of the split flow channel and the mainstream. Road, try to eliminate the density difference, pressure difference, temperature difference in the cavity.

(3) The transition zone and corner of the workpiece should be sufficiently round and have good release properties, such as increasing the mold release margin and improving the polishing of the die face. The ejector system should be balanced.

(4) The exhaust should be very good.

(5) Increase the wall thickness of the part or increase the anti-warpage direction, strengthen the ribs, and enhance the anti-warping ability of the parts.

(6) The strength of the material used in the mold is insufficient.

Plastic:

The crystal type has a greater chance of warpage deformation than the amorphous plastic, and the crystal type plastic can correct the warpage deformation by using a crystallization process in which the crystallinity decreases as the cooling rate increases and the shrinkage ratio becomes small.

Processing:

(1) The injection pressure is too high, the holding time is too long, and the melting temperature is too low. The speed is too fast, causing internal stress to increase and warp.

(2) The mold temperature is too high, the cooling time is too short, the parts during demolding are overheated, and spray deformation occurs.

(3) Reduce the screw speed and back pressure to reduce the density while maintaining the minimum charge amount to limit the generation of internal stress.

(4) If necessary, the mold may be soft or demolded after the mold is easily warped and deformed.