Discover Quality 3D Printing Materials

Unmatched materials for superior 3D prints

PLA

Applications of PLA Filament:

Prototyping:

PLA is frequently used for creating prototypes of designs, allowing for quick iterations and testing before moving to more expensive materials.
Models and Decorative Items:

Its ease of printing and wide range of colors make it ideal for creating various models, figurines, cosplay accessories, and decorative pieces.
Industrial Applications:

PLA is used to create tools, jigs, and fixtures for manufacturing and maintenance purposes, especially in industries like automotive.
Consumer Goods:

PLA is used in the production of various consumer goods, such as accessories for bags and shoes, jewelry, and buttons.
Education:

PLA is popular in educational settings due to its eco-friendly nature and ease of use, allowing students to safely practice prototyping skills.
Medical Devices:

PLA can be used in some medical applications, such as creating biodegradable screws, pins, plates, and rods.

Functional Parts and Prototypes:

PETG's strength, durability, and impact resistance make it ideal for producing parts that need to withstand wear and tear, like housings, brackets, and functional prototypes.
Mechanical Components:

Its ability to handle stress and strain makes it suitable for printing gears, linkages, and other mechanical elements.
Food-Safe Containers and Packaging:

PETG is a food-safe plastic, making it a good choice for creating containers, bottles, and packaging for food and beverages.
Outdoor Applications:

PETG's resistance to UV radiation and weathering makes it suitable for outdoor use, such as for garden tools, signage, and fixtures.
Consumer Goods:

PETG's food-safe and chemical-resistant properties make it a great option for items like kitchenware, storage containers, and cutting boards.
Medical Devices and Packaging:

PETG's biocompatibility and ease of sterilization make it useful for certain medical applications and packaging.
Parts Requiring Transparency:

PETG can be produced in transparent or translucent forms, making it useful for light covers, lampshades, and other applications where light transmission is desired.
Robotics and Automation:

PETG is used in robotics and automation for various components due to its strength, durability, and flexibility.

Phone cases and protective casings:

TPU's flexibility and shock absorption make it ideal for protecting electronic devices.
Footwear:

TPU is used in shoe soles and insoles for its cushioning and durability.
Sporting goods:

It's used in items like athletic equipment and protective gear for its impact resistance.
Soft-grip handles:

TPU provides a comfortable and non-slip grip for various tools and devices.
Wearable parts:

TPU's flexibility makes it suitable for creating parts that need to bend and flex, like watch bands or straps.

Industrial Applications:

Gaskets, seals, and tubing:

TPU's elasticity and chemical resistance are useful in creating seals and hoses.
Shock absorbers and vibration dampening:

TPU is used in components that need to absorb impact and reduce vibrations.
Non-marring workholding:

TPU can be used to create parts that won't scratch or damage other materials during manufacturing.
Friction pads and drive belts:

TPU's abrasion resistance makes it suitable for applications requiring friction or power transmission.
Prosthetics and orthotics:

TPU's flexibility and ability to conform to shapes make it useful in creating custom-fit components.
Automotive parts:

TPU is used in various automotive components, including seals, vibration dampeners, and interior parts.

3D Printing Specifics:

Fused Filament Fabrication (FFF) and Fused Deposition Modeling (FDM):

TPU is commonly used in these 3D printing processes to create flexible parts.
Selective Laser Sintering (SLS):

TPU can also be used in SLS printing, allowing for the creation of more complex and intricate designs.
Printing Considerations:

TPU can be tricky to print. Successful prints often require a slow print speed, careful temperature and retraction settings, and potentially a negative tolerance between parts.