3D metal printer transforms UAF machine shop's abilities

Rod Boyce
907-474-7185
Oct. 14, 2022

Mention 3D printing and someone is likely to think about small plastic things such as customized Lego bricks or miniature dinosaurs. 

3D printing is something entirely different at the 汤姆视频 Geophysical Institute, which operates the university system鈥檚 only 3D metal printer. 汤姆视频 purchased the printer in mid-2020, but it was not ready for use until this year.

Jesse shows off the 3D printer
Photo by JR Ancheta
Jesse Atencio, a fabricator in the Geophysical Institute's Machine Shop, shows the new metal 3D printer.

With it, the Geophysical Institute can make specialized research tools and components for scientists and serve the university in other ways, saving time and money. Intricate parts can be designed and produced onsite instead of being outsourced.

鈥淭o be able to do metal printing greatly expands what we can do,鈥 said Greg Shipman, manager of the Geophysical Institute Machine Shop. 鈥淥ne of the big advantages to 3D printing is you can accomplish geometry that would be next to impossible to do with machinery.鈥 

The process is similar to printing with plastic, with just a few added steps. The machine shop has several traditional and high-temperature 3D printers of varying sizes, all of which use thermoplastic filaments.

Creating something with a 3D metal printer involves several processes, depending on the type of printing technology used. The Geophysical Institute鈥檚 metal printer uses a system called 鈥渇used deposition,鈥 a technology that is less costly than some other methods of 3D metal fabrication.

Fused deposition starts with the filament, which consists of nylon merged with metal. It could, for example, be stainless steel, copper, tool steel or Inconel, a steel that can withstand temperatures of up to 2,200 degrees Fahrenheit.

The finishing area for items made with the 3D metal printer.
Photo by JR Ancheta
Jesse Atencio holds a scale where 3D printed objects are weighed. Objects printed on the new metal 3D printer shrink to their intended size during the washing, curing and firing process. Machine Shop Manager Greg Shipman is also pictured.

The printer, as with other 3D printers, extrudes layer upon layer of filament as directed by its computer. It knows precisely how much nylon and metal the finished object requires. 

The next steps unveil the true creation. 

The item that comes out of the printer is considered to be in a 鈥済reen state.鈥 It goes to a wash station to strip away the nylon layer, revealing the precisely measured item.

The final step is the furnace.

鈥淭he computer controls the furnace,鈥 Shipman said. 鈥淎nd what it's doing is fusing those particles together and maintaining that same degree of accuracy.鈥

Technology continues to transform the institute鈥檚 Machine Shop.

鈥淲e鈥檙e a machine shop, but we鈥檝e got computers all over the place,鈥 Shipman said. 鈥淥ne side of our shop is for manual machines. And the other side is for computer-controlled machines.

Test item from the 3D metal printer
Photo by JR Ancheta
Jesse Atencio of the Geophysical Institute鈥檚 Machine Shop holds a test print in its green stage of the new metal 3D printer before the finishing process.

鈥淲e鈥檙e in a new phase. What we鈥檇 like to do is to just make others aware of the capabilities of this 3D metal printer 鈥 and not just this machine but all our machines,鈥 he said.

The new $139,000 printer, manufactured by the Markforged company of Massachusetts, is available to serve other UAF units through the Geophysical Institute Machine Shop. UAF Vice Chancellor for Research Nettie La Belle-Hamer purchased the printer. The Geophysical Institute paid for the printer鈥檚 installation and the necessary renovation on the Elvey Building鈥檚 ground floor.

鈥淲e are pleased to have this new 3D metal printer at the Geophysical Institute and available to serve UAF,鈥 said Jami Warrick, the Geophysical Institute鈥檚 operations manager. 鈥淚ts purchase demonstrates the university鈥檚 continued commitment to research in the Arctic.鈥

ADDITIONAL CONTACTS: Jami Warrick, 907-474-7411, jfwarrick@alaska.edu

063-23