WHAT IS COMPRESSION MOLDING?
Compression molding
is the process of molding in which a preheated polymer is placed into an open,
heated mold cavity. The mold is then closed with a top plug and compressed in
order to have the material contact all areas of the mold.
This process is able to produce parts with a wide array of lengths,
thicknesses, and complexities. The objects it produces are also high in
strength, making it an attractive process for a number of different industries.
Thermoset composites are the most common type of material used in compression
molding.
Four Main Steps
There are four main steps to the thermoset composite compression molding process:
1. A high strength, two part metallic tool is created that exactly matches the dimensions required to produce the desired part. The tool is then installed in a press and heated.
2. The desired composite is pre-formed into the shape of the tool. Pre-forming is a crucial step that helps to improve the performance of the finished part.
3. The pre-formed part is inserted into the heated mold. The tool is then compressed under very high pressure, usually ranging from 800psi to 2000psi (depending on the thickness of the part and the type of material used).
4. The part is removed from the tool after the pressure is released. Any resin flash around the edges is also removed at this time.
Compression Molded Plastic Pallets
TranPak’s ProPal
48×40 Pallet is a great example of a pallet made by compression molding.
If you have questions or want to order any of our plastic pallets or
material handling products, please contact us today! We will ensure you get the
perfect product for your needs.
Advantages Of Compression Molding
Compression molding
is a popular technique for a number of reasons. Part of its popularity stems
from its use of advanced composites. These materials tend to be stronger,
stiffer, lighter, and more resistant to corrosion than metal parts, resulting
in superior objects. Manufacturers accustomed to working with metal parts find
that it is very simple to convert an object designed for metal into a
compression molding part. Because it is possible to match metal part geometry
with this technique, in many circumstances one can simply drop-in and replace
the metal part altogether.
Another advantage of compression molding is its ability to create very complex
parts. While this technique can not quite reach the production speed of plastic
injection molding, it does offer more intricacies in geometry than typical
laminated composites. It also allows for longer fibers than plastic injection
molding, resulting in stronger and stiffer materials. Therefore, compression
molding can be seen as a middle ground between plastic injection molding and
laminated compound fabrication.
With its ability to create complex parts with a huge variety of applications
while keeping part cost and turnaround time a priority, compression molding is
an advantageous process for manufacturers in a wide range of industries.