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ABS Filament: Choosing the Right One For Your Needs

  • Thursday, 15 April 2021
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ABS Filament: Choosing the Right One For Your Needs

ABS (amphibole-bonded carbon) is commonly used in 3D printing for many reasons.abs filament ABS filament (Acrylonitriol-butadien-styrene) has many cosmetic properties that make it an excellent choice, including its physical strength and its ability to handle many different chemicals. It's also popular because it's cost effective; it's relatively inexpensive compared to other materials used in printing, which helps to make ABS affordable for any printer or extruder.

The properties of ABS make it very resilient, and in most cases, can withstand high temperatures and prolonged heat exposure.abs filament This quality comes from the ABS' open-ceiling nature, which is similar to that of Silicone, allowing for vapour deposition. This characteristic also makes ABS filament flexible but also resistant to tearing or shrinking at various temperatures. The use of a heated bed combined with a sealed ABS extruder temperature ensures that extruders maintain consistent extrusion temperatures, which ensure uniform application of the ABS material onto the workpiece, reducing instances where melted ABS material spills or seeps into parts.

ABS, like most other widely used materials, is affected by various impurities. However, it's not affected to the extent that other common materials are. There is one particular drawback to ABS though: depending on the applications, the strength of the ABS material can be reduced considerably. For this reason, ABS printers are typically used in applications where speed and accuracy are paramount over robustness. In ABS extruder heads, for instance, they're less applicable to high volume production and may even have to be specifically designed in order to stand up to the kind of printing stresses that are common in high volume plastic fabrication.

One good alternative to the ABS in high volume industrial use is Polyimide, which can be used in ABS filaments because it is highly resistant to stretching. But, as with ABS, there is a trade off between durability and quality of finished product. Polyimide extruded plastic also has its drawbacks. For one, the material can be prone to breakage at elevated temperatures, especially from excessive heat. It is also important to note that Polyimide is more difficult to install than ABS, which means that inexperienced users may find it difficult to obtain good results.

Finally, another alternative to the ABS that is commonly used in low volume plastic fabrication processes is Styrene. Styrene is often combined with ABS because it produces a smoother, more refined finish. Unlike other ABS filament options, though, Styrene filament is unable to withstand extreme pressures and temperatures. Therefore, the plastic may be combined with ABS, but it's always best to opt for a different material if you can.

Now that you know the different between ABS and other types of extrusion plastic, it's time to focus on choosing your ABS extruder. The easiest way to choose between these ABS extruders is to examine your needs and expectations. If you are looking to produce high volumes of small, clear plastic objects (such as bottles) that will need minimal surface tension to stay rigid, then an ABS extruder with small block features is probably your best choice. If you need a high quality, uniform extrusion (which you'll get from an ABS extruder) that is capable of forming intricate objects (such as those that feature in racing car body kits), then you'll probably be better off purchasing an AICU extruder. However, whatever your extrusion technology, an extrusion of suitable mechanical properties is a key requirement for your hot part production process.

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