Description
Polycarbonate (PC) 3D Printing Filament:
3D META’s PC (polycarbonate) 3D printing filament is engineered for strength, durability, and heat resistance, making it an excellent choice for demanding applications that require superior mechanical properties. Our PC (polycarbonate) printing filament is known for its exceptional impact resistance and optical clarity, making it ideal for creating strong, transparent, and high-performance parts. Produced under strict QA standards, our PC (polycarbonate) 3D printing filament ensures consistent, reliable results, giving you the confidence to tackle even the most challenging projects.
Key Features of PC (Polycarbonate) 3D Printing Filament:
- High-Temperature Resistance: With a high glass transition temperature, PC (polycarbonate) 3D printing filament is capable of withstanding temperatures up to 110°C, making it suitable for parts that will be exposed to heat.
- Superior Impact Resistance: Known for its toughness, PC (polycarbonate) printing filament is far more impact-resistant than other common filaments like PLA and ABS, making it perfect for functional prototypes, mechanical parts, and safety equipment.
- Exceptional Strength and Durability: This filament delivers outstanding tensile strength and stiffness, allowing you to produce parts that can endure heavy loads and harsh conditions.
- High Optical Clarity: PC (polycarbonate) filament can produce clear and translucent parts, making it a great choice for applications requiring light transmission or aesthetic finishes.
Applications for PC (Polycarbonate) Printing Filament:
Due to its remarkable strength, durability, and heat resistance, PC (polycarbonate) 3D printing filament is widely used in the automotive, aerospace, and industrial sectors. It’s perfect for creating protective gear, electronic housings, lighting covers, and mechanical components that require superior performance. Its impact resistance also makes it suitable for printing robust prototypes and end-use parts that need to withstand real-world conditions.
Storage and Drying for PC (Polycarbonate) Filament:
PC (polycarbonate) printing filament is hygroscopic and can absorb moisture from the air, which can lead to print defects. To maintain optimal performance, store the filament in a cool, dry place, ideally in an airtight container with desiccants. If moisture absorption occurs, dry the filament at 100°C for 1-3 hours using a filament dryer or oven.
Why Choose 3D META's PC (Polycarbonate) 3D Printing Filament?
3D META’s PC (polycarbonate) 3D printing filament is made from high-quality materials and produced under strict manufacturing standards to ensure consistent performance and reliability. Each spool undergoes rigorous testing to meet the highest quality criteria, ensuring that every print meets your expectations. Our commitment to innovation and customer feedback drives us to continually enhance our filament offerings, providing you with the best materials for your 3D printing needs.
Print Settings
**Downloadable slicer profiles for 3D META filaments coming soon! **
Technical Specs
Our full technical datasheet can be downloaded here
FAQ's
Q: What are the common applications for PC (polycarbonate) 3D printing filament?
A; PC (polycarbonate) filament is commonly used in industries such as automotive, aerospace, and electronics for creating strong, durable parts like protective gear, housings, fixtures, light covers, and functional prototypes that require high impact resistance and heat tolerance.
Q: Does PC (polycarbonate) printing filament require drying before use?
A: Yes, if the filament has absorbed moisture, it should be dried before printing to avoid issues such as bubbling, poor layer adhesion, and reduced strength. Dry the filament at 100°C for 1-3 hours using a filament dryer or an oven.
Q: Is PC (polycarbonate) filament suitable for outdoor use?
A: PC (polycarbonate) filament is highly resistant to UV radiation and weathering, making it suitable for outdoor applications. Its durability ensures that printed parts remain strong and functional even when exposed to sunlight and varying environmental conditions.