5.3: Types of filament

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Types of Filament

Different filaments have unique properties that affect the strength, flexibility, and print quality of parts. Here’s an overview of popular filaments:

PLA (Polylactic Acid)

PLA is known for being easy to print and is a popular choice for beginners. It universally benefits from cooling, doesn’t tend to warp, and has minimal stringing.

Pros: Easy to print, widely available, available in various colors, environmentally friendly (made from corn).
Cons: Not very strong, low melting point, unsuitable for high-stress or high-temperature applications.

ABS (Acrylonitrile Butadiene Styrene)

ABS is strong and durable, commonly used in applications requiring higher temperature resistance. However, it’s prone to warping and should not be cooled during printing.

Pros: Strong, heat-resistant, commonly used in consumer products (e.g., LEGO bricks).
Cons: Prone to warping, challenging to print without an enclosed printer, less commonly used by beginners due to printing difficulties.

PETG (Polyethylene Terephthalate Glycol)

PETG combines the qualities of PLA and ABS, offering flexibility with some temperature resistance. It prints at a moderate temperature and has only minor warping.

Pros: Flexible, suitable for parts requiring durability over many cycles.
Cons: Bends under large forces, not as heat-resistant as ABS.

Nylon

Nylon is strong, durable, and has good temperature resistance but is challenging to print. It is also highly moisture-absorbent, so it must be stored in a dry environment.

Pros: High strength, excellent for parts under stress.
Cons: Absorbs moisture, making it challenging to print without careful storage; generally requires a high printing temperature.

Fun Fact

Weed eater string is made of nylon and can be used as filament, though this is not recommended due to inconsistent quality and performance.

TPU (Thermoplastic Polyurethane)

TPU is a popular choice for flexible prints, providing options that range from semi-rigid to highly flexible. Flexibility is graded by hardness, with common grades ranging from A98 (hard) to A80 (soft), allowing makers to select the right level for their projects. However, TPU can be challenging to print and often requires a direct drive extruder for best results and careful tuning.

Pros: Highly flexible, customizable hardness, good temperature resistance
Cons: Often requires a direct drive extruder, low layer adhesion, prone to stringing

Abrasive filaments

Certain filaments contain additives that make them abrasive, such as glow-in-the-dark and carbon fiber-reinforced filaments. To print with these materials, you need a hardened steel nozzle and an abrasion-resistant hotend. These components are not commonly found on standard 3D printers but can be easily upgraded on most commercially available models.

Pros: Enhanced material properties, such as added strength or glow effects
Cons: Requires abrasion-resistant hotend and nozzle

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