A view of cavity detail in a powdered metal technology (PMT) cavity insert.
These parts, which are typically made from H-13 tool steel, can then be heat treated. After heat treating, PMT cavities can be machined like any other cavity from hardened tool steel. Machining processes such as EDM, grinding, etc., are no issue and this ability allows for engineering changes at a later date, if necessary. Since PMT cavities are produced from a mold, any engineering changes can be made to the mold that produces the PMT cavities and new PMT cavities can be molded and machined for new part revisions.
This technology can enhance the capabilities of any moldmaker and help reduce the cost and increase the delivery for high cavitation injection molds. Since this process allows for PMT cavity duplication from a master mold, the greatest advantage of using this technology is that it guarantees that all cavities are precisely the same, regardless of volume or date of manufacture. Extremely precise PMT cavity reproduction is possible. Other key features of PMT include:
- Cavities are H-13 tool steel, with other steels available depending upon the application
- Can be heat treated to standard Rockwell hardnesses
- Can achieve surface finishes of up to Rmax 2
- Cavities can be coated for corrosion resistance (TiN, nickel plate)
- Short pull ahead times for duplicate cavities, including spares
Depending upon the size and configuration of the cavity detail to be produced, feature tolerances of up to 15 microns are achievable. In addition to repeatability of the cavities, high cavity definition can be achieved with PMT—fine details and sharp corners are easily produced. This is possible because the impression of the master mold for the PMT cavity takes the green part shrinkage into account. The part features in the master mold will be larger than those in the finished part, making them easier to machine. Also, the mold impression will be opposite of the finished parts. A recess in the final cavity is produced by a standing feature in the mold. This external, standing feature can be machined with sharp corners. This will translate into a sharp corner feature in the finished cavity, unlike conventional machining on a cavity, which can be limited based on machine cutter radius or EDM overburn.
Figure 1 shows a magnified view of cavity detail in a PMT cavity insert. Also using PMT, if a special design for the cavity is needed for the mold design, these cavities can be produced with unique shapes that would be difficult or impossible to produce with other metalworking processes.
However, not all cavities can be made using PMT. There are limitations as with other technologies. Because of the process used to make PMT cavities, cooling in the injection mold of the finished cavities must be accomplished externally. Waterlines cannot be designed into these cavities. Typically, PMT cavities are inserted in plates, and then these plates are cooled from the mold base that contain water lines. Even with this limitation, this process has allowed molding cycle times on PMT cavities as short as 3.2 seconds on small plastic parts.
Another limitation is the maximum size of the cavity. The maximum PMT cavity size is 25mm x 30mm x 70mm, but can change based on the complexity of the cavity to be made. Figure 2 shows a range of different shapes and sizes of finished PMT cavities.
Range of different shapes and sizes of finished powdered metal technology (PMT) cavities..
For moldmakers who are thinking about designing and making high cavitation molds, PMT mold cavities takes some of the issues, cost and leadtime to make cavities out of the equation. For moldmakers that are already manufacturing high cavitation systems, this would also be an excellent option to employ when making these molds to help cut costs and leadtime. This technology can help lower individual cavity cost and can also reduce labor and machine time and cost. The additional labor and machine time that is not used machining cavities can be used toward other parts of the project to reduce overall leadtime. With the high level of repeatability and precision, and a lower cost per unit that PMT offers, this is a great technology to use for this type of work.
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