US army works with air force-invented steel alloy to 3D print ultra-strong steel parts

Spread the love

At the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory, materials manufacturing scientists are 3D printing intricate geometries with ultra-high-strength using air force-invented steel alloy.

US army works with air force-invented steel alloy to 3D print ultra-strong steel parts

“I think it’s going to really revolutionize logistics,” said Dr. Brandon McWilliams, a team lead in the lab’s manufacturing science and technology branch. “Additive manufacturing is going to have a huge impact on sustainment.”

While progress remains steady, McWilliams said reliable 3D printed metal parts is still a long way off; however its benefits will be substantial.

“You can really reduce your logistics footprint,” he said. “Instead of worrying about carrying a whole truckload, or convoys loads of spares, as long as you have raw materials and a printer, you can potentially make anything you need.”

The army researchers are using the powder form of AF96, an ultra-strong specialized steel alloy originally developed by the U.S. Air Force for Powder Bed Fusion process, a powder based 3D printing technique. Unlike the binder jet 3D printing that uses a binder liquid to glue together building material’s particles, the powder bed fusion techniques use an electron beam as the energy source for the melting process. The 3D printer’s laser selectively melts the powder in a pattern, and the printer then coats the build plate with another layer of powder and the process repeats.

“We’re able to print up parts with internal structures that they would not necessarily be able to create with that much dimensional accuracy where they try to use mill or machine part,” said Dr. Andelle Kudzal, a materials engineer on McWilliam’s team.

The resulting part has intricate design features that no mold could create. Army researchers said this steel alloy has amazing qualities and more importantly potential applications for ground vehicle replacement parts.

“This material that we’ve just printed and developed processing perimeters for is probably about 50 percent stronger than anything commercially available,” McWilliams said.

But will the 3D printed part work as needed in a battlefield scenario? “We’ve printed some empeller fans for the M1 Abrams [Main Battle Tank] turbine engine and we can deliver that part — they can use it, and it works,” McWilliams said. “But it’s not a qualified part. In terms of a battlefield scenario that may be good enough to be able to get your tank running again for hours or days if that’s important to the mission, but on the other hand, we still need to be able to answer, does this perform as good as the OEM [original equipment manufacturer] part? Does this perform better?”

The researchers said they are planning two strategies, one is for battlefield sustainment, the replacement of existing parts and supporting legacy systems, and the second one is about futures systems.

“That’s where we’re more integrated with the OEMs and industry to see the things they’re working on and see how we can make things better to really push the state-of-the-art,” McWilliams said.

The Air Force initially developed this alloy for bunker-busting bomb applications. They needed a metal that was very high-strength and high-hardness, but they also needed it to be economical.

“The nice thing about that for the Army is that it has wide ranging applications. We have interest from the ground combat vehicle community, so it could be used for replacement parts,” McWilliams said. “A lot of our parts in ground vehicles now are steel. So this could be dropped in as a replacement not having to worry about material properties because you know it’s going to be better.”

Currently the laboratory is working closely with industry and academic researchers to model new alloy designs, perform computational thermodynamics and expedite the process to get the materials to soldiers.

“We’ve developed a road map and that’s an integrated plan that’s now focused on supporting our modernization priorities, but we’re also tied closely to the ground combat vehicle community,” McWilliams said.

Source: 3ders site

Similar Posts
Maker and Veteran Tim O’Sullivan Completes Third Life-Size 3D Printed Movie Character Suit
Spread the loveA project that began as an ambitious therapeutic task for military veteran Tim O’Sullivan after he returned home...
3D printed molds help to insulate NASA’s supersize Space Launch System
Spread the loveTo keep rockets from getting too hot during the extreme temperatures of launch, insulation is essential — but...
Carbon-reinforced Parts 3D Printed for Luxury Catamaran
Spread the loveAs if 3D printing carbon-reinforced parts weren’t hard enough, Swiss Scheurer GmbH did it big – and they...