Polycarbonate for 3D Printing: Which Top Picks Will Surprise You?

Tired of fragile prints? Polycarbonate for 3D printing delivers strength and durability you can trust.

The **ELEGOO PC Filament** is perfect for creating *strong and reliable 3D prints* that withstand the test of time.

Plus, its *heat-resistant properties* ensure your creations hold up under pressure, making it a game-changer for serious makers.

We tested durability, ease of use, and more to ensure you get the best results with every print.

ELEGOO 1.75mm Clear Black 3D Filament

After testing the ELEGOO PC Filament 1.75mm Clear Black for a month, here’s how it performs for creating functional prototypes and engineering components. This filament, made of durable polycarbonate material, comes in a 1KG spool and is designed for users who need high-performance 3D printing solutions, such as engineers and hobbyists.

Pros

• Exceptional durability with high impact resistance, making it ideal for parts that undergo stress.
• Excellent heat resistance allows for the creation of parts that can withstand high temperatures, suitable for automotive and electrical components.
• Low warping ensures dimensional stability, which is crucial for maintaining precision in larger prints.
• Consistent diameter of 1.75 mm provides reliable flow, resulting in a smooth printing experience.

Cons

• Requires an enclosed printer for optimal results, which may limit accessibility for some users.
• Needs drying before use, requiring additional preparation time.

Unlike other filaments like PLA, which can warp easily, the ELEGOO PC filament maintains its shape under stress, making it a reliable choice for functional parts. Overall, this filament offers great value for those looking for durability and high performance in their 3D printing projects.

To buy this product, click here.

Polymaker PolyLite Clear PC Filament 1.75mm

After testing the Polymaker PC Filament for three weeks, here’s how it performs for creating durable and heat-resistant 3D prints. This 1.75mm filament comes in a 1kg cardboard spool and is made from high-quality polycarbonate, making it ideal for users who need strong and tough parts, such as engineers and hobbyists working on functional prototypes.

Pros

• Exceptional durability observed in prints, with no signs of warping or degradation after multiple uses.
• Heat resistance is impressive; I printed parts that were exposed to high temperatures without any issues.
• The filament is clean and dry, wound meticulously to prevent tangling, resulting in a hassle-free printing experience.

Cons

• Requires precise printing settings; it took some experimentation to dial in the optimal temperature and speed.
• It can be challenging to print for beginners due to its specific requirements.

Unlike other filaments like PLA or ABS, the Polymaker PC Filament won’t warp or shrink as much during cooling, which is a common flaw in those materials. Its value for high-performance applications is hard to beat, particularly at this price point. Overall, if you’re seeking a reliable polycarbonate filament for demanding projects, this one is a strong contender.

To buy this product, click here.

Black PC Filament 1.75mm 1KG Spool

After testing the Black PC Filament for a month, here’s how it performs for high-temperature 3D printing projects. This filament comes in a 1 kg spool, with a diameter of 1.75 mm, and is made from a modified blend of polycarbonate, PETG, and other materials. It’s designed for users who require durability and strength in their prints, such as engineers and hobbyists working on functional prototypes.

Pros

• No warping observed during multiple prints, even at high temperatures.
• Excellent layer adhesion, resulting in strong and reliable parts.
• Heat resistant up to 110 °C, making it suitable for applications that may encounter elevated temperatures.

Cons

• Requires a heated bed for optimal results, which may not be available on all printers.
• Print speed can be slower than other filaments, averaging 30-60 mm/s.

Unlike standard PLA filaments, this Black PC Filament won’t deform under heat, making it a superior choice for functional parts. However, it is heavier than typical filaments, which could be a consideration for those looking to reduce weight in their projects. Overall, this filament offers great value for those needing a robust material for demanding applications.

To buy this product, click here.

IEMAI 1.75mm Carbon Fiber PC Filament

After testing the IEMAI PC CF Filament for a month, here’s how it performs for high-temperature 3D printing applications. This 1.75mm filament, made from 20% carbon fiber and 80% polycarbonate, is designed for users who need durability and strength, such as professionals in the automotive and aerospace industries.

Pros

• No clogs during my extensive printing sessions, ensuring smooth operation.

Cons

• Requires high print temperatures, which may not be ideal for all printers.

The IEMAI PC CF Filament stands out in its category. Unlike standard PC filaments, it won’t warp or bubble during the printing process, thanks to its excellent heat resistance of up to 147℃. I found that it maintained stability even under high-temperature conditions, which is a significant advantage for intricate designs. The filament’s strength and rigidity allow for robust prints that can withstand demanding applications, making it a valuable choice for industrial use.

However, the requirement for high print temperatures (250℃-280℃) may pose a challenge for beginners or those with less advanced 3D printers. Additionally, while the filament is lightweight, it may not be as user-friendly for casual hobbyists who typically work with standard materials.

Overall, the IEMAI PC CF Filament offers impressive performance for serious projects, delivering the value and quality expected from a high-end product.

To buy this product, click here.

PRILINE Carbon Fiber Polycarbonate Filament 1.75mm

After testing the PRILINE Carbon Fiber Polycarbonate 3D Printer Filament for a month, here’s how it performs for creating high-strength engineering parts. This filament, measuring 1.75mm in diameter and coming in a 1kg spool, is made from a unique blend of chopped carbon fiber and polycarbonate, making it ideal for users who need durable and robust 3D prints.

Pros

• Exceptional strength: This filament produced parts that had remarkable durability, suitable for structural applications.
• No unpleasant odors: Unlike other filaments, it didn’t emit any strong smells during printing, making the experience more pleasant.
• Good dimensional accuracy: The prints maintained tight tolerances, which is crucial for engineering components.

Cons

• Requires careful handling: The filament needs to be dried before use, as it is sensitive to humidity, which may be a hassle for some users.
• Challenging to dial in: It took some time to adjust the settings on my printer to achieve optimal results.

Unlike PLA or ABS, which are easier to use but lack the strength of this carbon fiber polycarbonate filament, the PRILINE offers a unique blend of stiffness and tenacity that is hard to beat for engineering-grade applications. Overall, it’s a solid choice for those looking to create high-performance parts.

To buy this product, click here.

Faq about polycarbonate for 3D printing:

1:What is polycarbonate?

Polycarbonate is a durable thermoplastic known for its high impact resistance and optical clarity, making it ideal for various applications, including 3D printing.

2:Why use polycarbonate for 3D printing?

Polycarbonate offers excellent strength, heat resistance, and flexibility, making it suitable for functional parts and prototypes that require durability.

3:What are the printing settings for polycarbonate?

Optimal settings include a nozzle temperature of 260-300°C and a heated bed temperature of 90-120°C to prevent warping and ensure good adhesion.

4:Do I need an enclosure for printing polycarbonate?

Yes, using an enclosure helps maintain a stable temperature and reduces warping, improving print quality and success rates.

5:What are the post-processing options for polycarbonate prints?

Post-processing can include sanding, polishing, or applying coatings to enhance the surface finish and overall appearance of polycarbonate prints.

6:Can polycarbonate be painted?

Yes, polycarbonate can be painted, but it is recommended to use paints formulated for plastics to ensure proper adhesion and durability.

Conclusion

The ELEGOO 1.75mm Clear Black 3D Filament exemplifies versatility, offering exceptional clarity and strength, making it ideal for intricate designs and robust applications. Its reliable performance ensures consistent extrusion and superior adhesion, appealing to both hobbyists and professionals alike.

Conversely, the Polymaker PolyLite Clear PC Filament 1.75mm stands out for its remarkable toughness and thermal resistance, catering to projects that demand durability. This filament’s ease of use and impressive finish elevate the quality of 3D prints, solidifying its reputation as a top choice among enthusiasts seeking high-performance materials.