Die casting is a particularly harsh operation. The process involves forcing molten metal into a mold WCMT Insert cavity at high pressure, and is commonly used to make automotive parts such as engine blocks, wheels and engine cradles. The tooling that produces these parts must be durable, and buyers are not likely to trust a new process easily. In other words, die cast tooling is not an obvious place to experiment — but the challenge of the process makes it exactly the kind of application that is ideal for testing the limits of metal 3D printing. 

This is what Exco Engineering (located in Toronto) has done over the last four years. In an initiative led by Wes Byleveld, now director of additive manufacturing, the company Indexable Carbide Inserts has not only proven that 3D printed tooling can withstand the die cast process, but that it also provides benefits to that process in the form of better cooling, reduced cycle time and longer tool life.

Getting to this point has been an uphill battle. Steps along the way have involved finding the right metal printer that could handle the work; a change in material; and pushing the limits of conventional design rules with simulation. Mr. Byleveld and his team still aren’t finished. The challenge Exco faces now? Explaining to customers the value that this 3D printed tooling offers.

Read the full story of Exco’s journey into 3D printed die cast tooling in this story from Senior Editor Brent Donaldson.

The Cemented Carbide Blog: http://jimadelaid.insanejournal.com/