Moldmakers have been reluctant until now to use high conductivity copper alloys in their molds due to the perceived cost of copper-based alloys compared with conventional tool steels.

A high conductivity copper alloy is—within the context of this article—a copper-based material that through a combination of alloying and manufacturing techniques, retains the higher thermal conductivity that is inherent in copper, but with a degree of hardness that allows it to be used in the machined condition within a production environment.

Benefits
Some of the reasons to consider the use of copper alloys in plastic injection molds include:
Cycle time can be reduced by at least 20 percent (some users report reductions of up to 80 percent), resulting from the significantly faster cooling rates achieved with high conductivity copper alloys.

Productivity can be increased by at least 25 percent, with some users in the automobile headlight production industry reporting up to a 500 percent production increase simply because a reduced cycle time means more components can be made per shift.

Part warpage can be greatly reduced as, with the improved cooling, the molded component spends less time at an elevated temperature, thus the number and severity of “hot spots” within the mold are reduced and part quality is greatly improved.
Less warpage means more constant part quality, shot after shot.

Due to the superior thermal transfer characteristics of high conductivity copper alloys, (typically five to 10 times better than steel), heat can be moved away from sensitive areas of the mold at such a rate that the need for complex cooling channels in the immediate location of the molded component is reduced, or eliminated altogether.

Because the number of cooling channels required in the tool is less, the machining costs of the molds can be greatly reduced—up to four times less than that of a comparable cooling rate on a steel mold.
Specific advantages of high conductivity copper alloys include:

Diffusivity
High conductivity copper alloys absorb the heat wave in a mold when a plastic part is injected. The initial absorption of the heat wave is a key factor. Heat removal in the backstage with the cooling system leaves plenty of time to do it. This is where high conductivity copper alloys really shine—absorbing the first heat wave, shot after shot.

Polishability
The excellent polishing ability of high conductivity copper alloys has been proven when used in contact lens packaging manufacture, which requires the lenses to be transparent so they can be checked through the packaging. Such high quality plastic packaging is achieved with high conductivity copper alloy inserts highly polished.

The polishing time of such inserts has proven to be four times faster than steel inserts, and the cycle time to be reduced by 57 percent.

Coatings
In order to increase wear resistance, the high conductivity copper alloys can be very easily coated with electroless nickel, hard chrome or even PVD (physical vapor deposition) or CVD (chemical vapor deposition) coatings.

Electroless nickel allows the coating to penetrate into each and every hole with a constant coating thickness, which is not the case with a galvanic process, such as hard chrome plating. Hardness of up to 60 to 70 HRC can be achieved.

For easier plastic part removal when demolding, electroless nickel can be combined with Teflon (PTFE) or boron nitride. Such mold parts have a surface that feels as slippery as soap when coated with PTFE or boron nitride electroless nickel, which results in molded plastic parts that will not stick and that will demold very easily.

Limitations
When using high conductivity copper alloys within a mold, in order to prevent stress relieving or annealing of the alloy (and thus maintain the hardness characteristics of the material), the mold should be configured such that prolonged exposure to elevated temperatures above 900oF would be avoided.

 

 

 

 

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