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The Evolution of PA Powder Printing

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    January 22, 2024 5:21 AM EST

    The Evolution of PA Powder Printing
    Polyamide (PA), also known as nylon, is a widely used polymer in the additive manufacturing sector. This thermoplastic is available in powder or filament form for technologies such as Selective Laser Sintering (SLS), Multi Jet Fusion, or Fused Deposition Modeling (FDM). These plastics are classified according to their chemical composition, and in particular according to the number of carbon atoms they contain.Get more news about pa powder printing,you can vist our website!

    Nylon first appeared in the mid-1930s and remains the most widely used today. Nylon is mainly found in the textile industry thanks to its flexibility and resistance. Even in 3D printing, one of the most interesting characteristics of this material is its flexibility.

    In addition to those already mentioned, two types of nylon are widely used in the industry: PA11 and PA12. What is interesting is that they are not only distinguished by a single carbon atom, but also have very different origins. PA11 is made from castor oil, a natural and renewable resource, while PA12 is made from petroleum.

    When it comes to 3D printing, it is important to note that nylon in powder form can be reused for multiple prints. In particular, the HP Multi Jet Fusion process is known to use polyamides such as PA12 and PA11, and to have a higher refresh rate compared to SLS technology.

    One of the leading manufacturers in the PA powder printing industry is Evonik, a world leader in the production of high-performance polymer powders. The specialty chemicals company offers a wide range of nylon powders suitable for various 3D printing technologies.

    Another notable player in the market is EOS, a company that offers white polyamide 12 powder for 3D printing. Parts made from this nylon are robust, stable for long periods of time, chemically resistant, and extremely versatile.

    Despite the numerous advantages of PA powder printing, there are still challenges to overcome. The high cost of machines and materials, as well as the need for post-processing, are some of the factors that may hinder the widespread adoption of this technology. However, with continuous research and development, it is expected that these challenges will be addressed, paving the way for more innovative applications of PA powder printing.

    In conclusion, the evolution of PA powder printing is a testament to the industry’s commitment to technological advancement. As more companies adopt this technology, it is anticipated that PA powder printing will continue to play a major role in the global 3D printing industry.