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How Abbott’s Continuous Furnace enables production binder jetting of Al 6061

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Last March, ExOne made headlines by revealing the company was now able to mass-produce aluminum 6061 parts with its binder jetting technology. ExOne now also revealed that the breakthrough has been enabled by the use of Abbott‘s Continuous Furnace for sintering. The long-time collaborators have partnered on the use of continuous furnaces for sintering of aluminum and high-volume binder jet applications.

When ExOne announced that it had begun successfully binder jet printing and sintering 6061 aluminum — delivering high densities of 99%, traditional material properties, and tight geometric control — it was a breakthrough decades in the making.

Abbott Furnace Company and Stephen Feldbauer, Ph.D.,Director, Research and Development at Abbott, played a key supporting role in advocating new approaches to optimize binder jetting of Al 6061 and make it more production-friendly.

While most binder jet 3D printers sold today are paired with a batch sintering furnace, ExOne found with Abbott’s assistance that Al 6061 preferred a continuous furnace — the very type that would be advantageous in high-volume production.

Abbott's Continuous Furnace

“The use of a continuous furnace turned out to be a key element of our patent-pending approach,” said Rick Lucas, ExOne Chief Technology Officer and VP, New Markets. “In our roadmap, 6061 aluminum was always the peak. It’s the most commonly used aluminum in the world; it’s what manufacturers want. But it’s also the most challenging to print and sinter. A lot of great minds came together to make this happen, building on decades of foundational work.”

Sintering bound-powder aluminum parts to high densities has been a well-known challenge for decades. While bound aluminum parts can be sintered to lower densities, Feldbauer explained, the powder metal (PM) market has been trying to develop a method to successfully deliver high densities and strengths.

So, while both PM and BJT could bind aluminum particles into a precision “green” form, neither had found a reliable way to sinter these forms to high densities while retaining shape and properties.

When Feldbauer looked at a micrograph of ExOne’s recent work on the printing and sintering of Al 6061 with other furnace approaches, he saw enough progress had been made by ExOne to deliver what others had struggled to for so many years. “Steve was very positive this would work,” Lucas recalled. “It’s largely about the gas flow over the part.”

Like a forensic scientist, Feldbauer, who also teaches powder metal processing at Penn State, saw the micrograph and could tell exactly what challenges were occurring and had a good idea of how to fix them. “I teach sintering in applied materials. I teach powder metal processing,” he explained. “I was able to draw on my experience.”

Abbott’s continuous furnaces, such as the Vulcan Delube System, specialize in removing binders or lubricants from PM and binder jet parts efficiently and “cleaning” the parts through several chambers of tightly controlled atmospheres and thermal profiles.

“Aluminum wants to oxidize so easily,” Feldbauer explained. “We’re printing and sintering it and controlling that. That ability to control the atmosphere in sintering is really what sets Abbott apart worldwide. To process continuously and to have very tight control of the atmosphere.”

Today, ExOne and Abbott can deliver high-density repeatable results in Al 6061.

“We are way ahead of anyone else in the world in printing and sintering to the quality we’re producing,” Feldbauer explained. “What makes this process exceptionally challenging is that we’re trying to achieve such a high density and not distort the product.”  Feldbauer likened it to trying to keep a metal particle from melting during sintering into a rounded droplet and, instead, keeping it square like a volumetric pixel — while, at the same time, removing binders and preventing oxidation.

He said the developments around the recent AL 6061 achievement will transform manufacturing in important ways, delivering more lightweight geometries in aluminum that are important to the automotive, aerospace and other industries.

“One of the things that this project really highlights is the importance of binder jet printing and sintering as a process in additive.

“For many, many years, binder jet hasn’t been viewed as favorably as electron beam or laser but what we’re demonstrating here is we can print a material with equivalent quality that cannot be made by welding with a laser or electron beam. Not only can we make it, but we can also do it in high volume. Without the ability to maintain high quality and high volume in sintering, this market was forced to be a niche market.

“We’ve broken that barrier. Now, we’re actually offering a competitive process to high-volume production of high-quality parts.”

Research 2021
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Davide Sher

Since 2002, Davide has built up extensive experience as a technology journalist, market analyst and consultant for the additive manufacturing industry. Born in Milan, Italy, he spent 12 years in the United States, where he completed his studies at SUNY USB. As a journalist covering the tech and videogame industry for over 10 years, he began covering the AM industry in 2013, first as an international journalist and subsequently as a market analyst, focusing on the additive manufacturing industry and relative vertical markets. In 2016 he co-founded London-based 3dpbm. Today the company publishes the leading news and insights websites 3D Printing Media Network and Replicatore, as well as 3D Printing Business Directory, the largest global directory of companies in the additive manufacturing industry.

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