Materials that do not cause electrostatic discharge when used in 3D printing

What Is Involved in the Production of ESD Materials?Electrostatic dissipative materials, also known as ESD materials, are developed with the purpose of controlling the discharge of static electricity and preventing the accumulation of static charge

What Is Involved in the Production of ESD Materials?

Electrostatic dissipative materials, also known as ESD materials, are developed with the purpose of controlling the discharge of static electricity and preventing the accumulation of static charge. ESD materials for 3D printing are formulated with additives that impart electrical properties suitable for dissipating static charges. These properties include high conductivity and low resistance. High conductivity and low resistance are two of these properties' defining characteristics. In the process of performing 3D printing, it is standard practice to incorporate various additives into the base polymer material. Some examples of these additives include carbon nanotubes and black carbon powders. Because of this, it is not impossible to come up with variations of the same substance that are neither static dissipative nor non-static dissipative.

To What End Should ESD Materials Be Employed, and What Are Its Benefits?

 

 

What Kinds of ESD Protection Measures Are Available for the Various Materials That Can Be 3D Printed?

 

  • Electrostatic discharge can be neutralized using a variety of different forms, including powder-based materials, powder-based filaments, and resin-based filaments

  • It is essential to keep in mind that even though certain materials, such as carbon-filled materials, may contain carbon additives, this does not necessarily mean that they are able to dissipate electrostatic charge

  • Keeping this in mind is essential because it is important to remember that

  • In addition, the electrostatic resistance of materials that are deemed to be ESD safe can vary from one another in a variety of ways

  • When searching for a solution that is suitable for your project, you should give careful consideration to the technical specifications as well as the properties of the material

  • This will ensure that you find the best possible option



At Xometry, we make it easy to select and quote ESD-rated custom 3D-printed parts by streamlining the process of selecting, quoting, and ordering these parts. We do this by making it simple to select and quote the parts. In the following sections, we are going to look at ABS-ESD7 and xESD in greater detail because these are two of the options that we make available to our customers.

This is the ABS-ESD7.

The thermoplastic material that is known as ABS-ESD7TM (acrylonitrile butadiene styrene-electrostatic dissipative) is a type of ABS that has had a carbon filler infused into it so that it is electrostatically dissipative. Other names for this material include ABS-ESD7TM and acrylonitrile butadiene styrene-electrostatic dissipative. It is an excellent material that can be used for a variety of purposes because it is durable and possesses good mechanical properties, just like the non-ESD equivalent. In applications such as the construction of electronic housings and fixtures for electronic components, it performs exceptionally well. Other applications benefit from its exceptional functionality as well. Because the Fused Deposition Modeling (FDM) printing process is compatible with ABS-ESD7, it is possible for you to create large parts with dimensions of up to 24 by 36 by 36 at a cost that is comparable to that of more conventional manufacturing methods.

xESD xESD is a static-dissipative photopolymer resin that is made available by Nexa3D's LSPc® 3D printing process. This process is used to create three-dimensional printed objects.

Because of the isotropic structure of the material, the dissipative and mechanical properties of the material have been carefully engineered to be stable and consistent. This was accomplished through careful engineering. Components that have smaller and more intricate details, as well as those that take advantage of the higher resolution that LSPc® technology provides, are ideal candidates for this material. It is an excellent choice. cnc machining parts is now possible to produce parts for end-use applications in low-volume production quantities at a cost that is reasonable due to both the material and the printing process.

Electrostatically dissipative materials, such as ABS-ESD7 and xESD, are excellent choices for the construction of components in which it is essential to restrict the effects of static discharge. The production of a wide variety of electronic components, such as housings, fixtures, connectors, and others, can benefit from the utilization of these materials in a number of different ways. 


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