When comparing 3DXSTAT ESD-Safe ABS Filament vs Taulman3D Bridge Nylon Filament, the Slant community recommends 3DXSTAT ESD-Safe ABS Filament for most people. In the question“What are the best filaments for 3D printing?” 3DXSTAT ESD-Safe ABS Filament is ranked 3rd while Taulman3D Bridge Nylon Filament is ranked 6th. The most important reason people chose 3DXSTAT ESD-Safe ABS Filament is:
Due to its properties, ABS is a very appropriate material to use for prototyping enclosures for electronic equipment and this filament is no exception. It was specifically designed to provide high-grade protection from ESD (electrostatic discharge) that can damage sensitive electrical components. It can prevent charge from building up on its surface, useful if the printed pieces come into contact with sensitive microelectronics
Specs
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Pros
Pro Suitable to be used with electronic equipment
Due to its properties, ABS is a very appropriate material to use for prototyping enclosures for electronic equipment and this filament is no exception. It was specifically designed to provide high-grade protection from ESD (electrostatic discharge) that can damage sensitive electrical components. It can prevent charge from building up on its surface, useful if the printed pieces come into contact with sensitive microelectronics
Pro Suitable for hot and humid settings
You can use this filament in standard ABS applications, such as for printing objects and parts that need to withstand hot and humid environments.
Pro Stronger than the majority of ABS materials
This ABS is tougher than the majority of ABS materials out in the market. Its tensile strength (maximum stretching pressure the material can withstand) is 42 MPa, according to its datasheet. Material property data website MatWeb has stated that the highest-quality ABS withstands at least 40MPa, and 3DXSTAT’s filament goes beyond this value.
Pro Filament's package provides good protection
The packaging of this filament is outstanding and protects the filament from external factors very well. The product comes packed in a very stylish 3DXSTAT box that, besides protection, gives it a premium feel. The spool itself is sealed in vacuum film with a silica packet.
Pro Can be used with virtually any standard 3D printer
You can use this filament with pretty much any standard 3D printer, since it's available in the two most commonly used diameters: 1.75 mm and 3.0 mm. Unlike other filaments, 3DXSTAT offers both sizes for the same price (1.75 mm is usually more expensive).
Pro Has nylon-like properties
Based off Taulman’s popular and very strong Nylon 645, this filament is strong, very flexible and has low surface friction.
Pro Several uncommon applications for 3D printed parts
Due to its strength and grippy surface, this filament can be used to produce weight-bearing surfaces, parts subject to friction and tapped/threaded parts. Its flexibility also makes it useful for fabricating plugs and gaskets.
Pro Great technical documentation
The full technical documentation is available at Taulman’s website. This is especially useful for professional engineers and those in the academic field. Furthermore, the filament was reviewed, tested and certified by St. Louis Testing Laboratories, ensuring the published technical data is correct.
Pro Affordable
A decent Nylon 645 filament can cost between $30 and $50. However, this filament is priced at around $20/$25, which puts its price on par with how much most PLA/ABS filaments cost.
Cons
Con Expensive
With a minimum price tag of $90.00/kg of filament, most 3D printing enthusiasts will have to consider this a serious investment for their high-end 3D printers. The price is somewhat offset by the fantastic quality of the filament, though.
Con Only available in black
Black is the only color available for this filament, which may be disappointing for some users. 3DXSTAT seems uninterested in adding more color options for their filaments.
Con Difficult to use
Nylon and nylon-like materials are hard to work with and the setup process is quite cumbersome. A heated bed plate is absolutely necessary or the material won't even stick to the plate. You’ll also need to coat the heated base plate with Kapton tape or Garolite. As the material is quite flexible, non-direct-drive extruders won't work and a very short direct-drive extruder is needed. Getting everything just right takes some time, and it will be a while before you can start making decent quality prints.