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Utilizing Argon Gas in Additive Manufacturing

Insight

The word argon itself comes from a Greek word meaning ‘inactive’ as the element undergoes almost no chemical reactions.

Cover Image for Utilizing Argon Gas in Additive Manufacturing

In Chapter 3, we mentioned the need for an inert atmosphere when printing with metal powders to avoid combustion and eliminate oxygen from the environment. In this chapter, we will talk a bit about our favorite gas, argon.

Our atmosphere is composed of 78% nitrogen, 21% oxygen and less than 1% argon. Nitrogen seems like a good choice for a controlled environment. It can displace oxygen, is not flammable, and since nitrogen is 88 times more abundant than argon, the energy to produce a pound of nitrogen is 88 times less than the energy to produce a pound of argon. In fact, it’s probably cheaper to buy a nitrogen gas generator than it is to pay for shipping and delivery of bottled nitrogen gas. The problem is that while nitrogen meets the needs for removing oxygen, it’s not suitable for manufacturing with metals since the nitrogen gas can result in contaminants in the build including the formation of nitrides—in other words, a completely different material than what you want.

Therefore, a true noble gas, argon is needed. The word argon itself comes from a Greek word meaning ‘inactive’ as the element undergoes almost no chemical reactions. Consequently, argon provides an ideal environment for building parts in titanium. Why not print in a vacuum? Well it turns out that is part of the 3D printing process too. On our Renishaw additive manufacturing systems, a vacuum is first created around the build environment to remove any air and humidity from the chamber. Once complete, the build chamber is then filled with approximately 600 liters of high purity argon to flush out any other contaminants.

Glowing argon gas (courtesy of Wikipedia)
Glowing argon gas (courtesy of Wikipedia)

However, just because argon is colorless, odorless, tasteless, and non-toxic, it’s not harmless. Since it is denser than regular air, it can displace the oxygen in an enclosed area, asphyxiating anyone inside. All PrinterPrezz manufacturing facilities have semiconductor clean-room grade oxygen sensors and other environmental quality sensors to ensure the safety of our team, as well as ensure the quality of our manufacturing.

With a blended workforce of clinicians and engineers, PrinterPrezz brings advanced medical manufacturing—or Medifacturing™—to innovators. PrinterPrezz is the only 3D Medifacturing company in the San Francisco Bay Area that’s ready to develop and contract manufacture your prototypes and medical devices with titanium 3D printing. We take care of the safety and technical challenges so that your engineers can focus on the CAD designs.

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