Unleashing the Power of PA Powder Printing
Polyamide (PA) powder printing, particularly with PA12 and PA6, is revolutionizing the world of additive manufacturing. This technology is being harnessed by leading companies such as Evonik Industries, which has been developing and manufacturing high-performance nylon powders for over 25 years.Get more news about pa powder printing,you can vist our website!
Evonik’s INFINAM® PA12 and PA613 nylon powders are the golden standard for powder bed fusion 3D printing of functional industrial parts. These high-performance powders can be used in selective laser sintering (SLS), high-speed sintering (HSS), and multi jet fusion (MJF) technologies. They offer a wide range of properties like temperature resistance, mechanical resistance, chemical resistance, impact resistance, excellent surface resolution, and feature detail.
PA12, or Polyamide 12, is a long-chain semi-crystalline thermoplastic material exhibiting excellent material properties. It absorbs little water, is resistant to polar and nonpolar solvents, has a low tendency to creep and high impact strength, and can be used over a wide temperature range. These properties make PA12 suitable for various demanding applications like lightweight automotive or aerospace parts, medical devices for temporary body contact, or metal-free solutions for the oil & gas industry.
PA6, or Polyamide 613, has been developed for applications in a higher temperature range as part of Evonik’s polyamide 6 series. Like PA12, it is perfectly matched to common powder bed fusion (PBF) 3D printing technology.
In addition to the material itself, the process of PA powder printing also offers significant advantages. The ability to produce high-quality prints on a variety of substrates, compatibility with a range of inks, and superior printing results that are built to last make PA powder a reliable choice for businesses.
In conclusion, PA powder printing is a powerful tool in the world of additive manufacturing. With its versatility, durability, and the ability to produce high-quality prints, it is set to play a significant role in the future of industrial 3D printing.