Polymaker PolyMide PA12-CF Nylon Carbon Fiber Black 500g

Features

^[1] PolyMide™ PA12-CF displays the best mechanical and thermal properties when fully crystallised. The printed part will not reach full crystallisation during the printing process, an additional step is required: Annealing. PolyMide™ PA12-CF can be annealed in the oven at 80˚C for 6 hours right after the printing process.

Printing Settings

Based on 0.4 mm nozzle. Printing conditions may vary with different printers higher speeds / flow rates and nozzle diameters. Brass nozzles give a better thermal conductivity than hardened nozzles such as hardened steel so depending on your 3D printer, printing with a higher extrusion temperature may be required when using specialty nozzles to ensure the correct extrusion temperature is achieved.

Unlike other Nylon filaments which are notorious for warping, PolyMide™ PA12 has been formulated to print easily without a heated build plate or enclosure. Additional heat is not beneficial to the printing process so if you are using an industrial 3D printer we highly recommend turning off the heated chamber and not exceeding 50°C build plate temperature.

We highly recommend to use a wear resistant nozzle when printing Polymide™ PA12-CF. The second consideration when printing Nylon is protection from moisture. See "Storage and Drying" details below for instructions to protect PolyMide™ PA12.

Annealing  Nylon  PA12

For the best mechanical performance it is recommended to anneal parts printed in PolyMide™ PA12-CF. Annealing is the process of heating up the printed parts at a certain temperature for a certain period of time. PolyMide™ PA12-CF displays outstanding mechanical and thermal properties when fully crystallised. The printed part will not reach full crystallisation after the printing process and annealing shortly after the printing process is required to complete this step.

Annealing Settings - 80˚C for 6 hours.

Specification

Compatibility

PolyMide™ PA12-CF has been engineered so users can print strong carbon fiber filled parts with excellent layer-adhesion. As the carbon fiber in this material is highly abrasive we recommend customers first check that their 3D printer is equipped to print abrasive materials before purchasing this product.

Aside from wear resistance, there are a few important considerations for this material that we recommend.

Reinforced filaments tend to be much stiffer than other standard filaments and this can cause problems when passing the filament through a printer’s feeding system. For a steady and uninterrupted flow of filament, it is recommended to take extra care and make sure your filament guide system is smooth and with minimal bends. Brass nozzles give a better thermal conductivity than hardened nozzles such as stainless steel. Depending on your 3D printer, printing with higher extrusion temperatures may be required when using specialty nozzles to ensure the correct extrusion temperature is achieved.

Of course with thousands of unique 3d printer models on the market, we can't guarantee each filament type will work with every 3D printer.

Technical Data

All testing specimens were printed under the following conditions: nozzle temperature = 300˚C, cooling fan = OFF, build plate temperature = 45˚C, infil = 100%, environmental temperature = 25 - 50˚C
All specimens were annealed prior to testing.​

THERMAL PROPERTIES

DRY STATE MECHANICAL PROPERTIES
All specimens were annealed at 80˚C for 24h and dried for 48h prior to testing.

MOISTURE CONDITIONED MECHANICAL PROPERTIES
All specimens were annealed at 80˚C for 24h and moisture conditioned.

We have full MDS and technical data sheets for PolyMide™ PA12-CF and all other Polymaker products. Contact us to enquire!

The typical values presented in Polymakers data sheet are intended for reference and comparison purposes only. Due to the nature of 3D printing they should not be used for design specifications or quality control purposes.

STORAGE & DRYING

Nylon filaments are very hygroscopic meaning they quickly absorb moisture from the air which can affect printing quality and strength of printed parts. Before packaging, PolyMide™ PA12-CF is dried to ensure the best printing quality and filaments are vacuum sealed in a resealable mylar bag to protect the filament from moisture.

• When opening, carefully open the resealable bag, remove the spool and close the bag back to preserve the desiccant bag.
• Print PolyMide PA12-CF from a dry box with a 10 - 15% RH which will protect the filament from absorbing moisture. We recommend Polymaker PolyBox™ which uses desiccant to keep the filament at dry conditions (relative humidity of 15% or less) without using heat. Dry boxes with a heating element can degrade plastic filaments if used extensively.
• After the print is completed, PolyMide™ PA12-CF can be stored in the PolyBox™, be sure to monitor and maintain the desiccant to keep RH below 15% RH. If a PolyBox™ is not being used the filament can be resealed in the resealable bag at the end of the print. In both situations it's recommended to store the filament away from sunlight for long term storage and replace / dry the desiccant as required.

These recommendations are ultimately to prevent the filament from absorbing moisture in the first place. If you hear popping sounds and notice that the surface quality of your print is uneven or the colour is not consistent, this is a likely indicator that the filament has absorbed too much moisture and can be remedied. Spools of PolyMide™ PA12-CF can be dried in a preheated convection oven at 80˚C for up to 12 hours.

Although drying is a suitable solution it's highly recommended not to excessively dry the filament and instead take precautions to prevent moisture absorption. Continually drying any plastic can make it more brittle and storing filament long term with moisture content can cause filaments to become more brittle due to hydrolysis.

FAQ

Q: What is the "Dry" state vs "Wet" state?
A:  Nylon 6 and Nylon 12 materials absorb moisture not only as a filament but also the final printed part, we call this process moisture conditioning. The "Dry" state is the printed part immediately after annealing and the "Wet" state represents the mechanical properties after absorbing moisture from the air, there is a third state "Saturated" which represents the properties if the material is submerged in water. As the printed part absorbs moisture, it will become more flexible and impact resistant, seeing a decrease in rigidity and tensile strength when compared to its dry state.
Shorter chain nylons such as PA6 or PA6,6 are capable of absorbing more moisture compared to longer-chain nylons such as PA11 and PA12, thus longer-chain nylons show a smaller shift in characteristics between dry and wet state and shorter-chain nylons show a greater change. PA12-CF is less sensitive to moisture than PA6-CF or PA612-CF, thus there is less change in mechanical properties under real-world circumstances. It is generally assumed that PolyMide™ PA12-CF 3D prints will eventually reach their "Wet" state however there are numerous cases where the part may never become moisture conditioned. Examples include components operating in a high temperature environment, 3D prints that have been post-processed and protected with a moisture barrier or perhaps for applications where the PolyMide™ PA12-CF is submerged in a specific chemical or oil.

Q: Can I print this material without wear resistant hardware (nozzle etc.)?
A:  PolyMide™ PA12-CF contains 10% chopped carbon fibers by weight which makes it very abrasive. It is important to have an abrasion resistant nozzle and hardware when printing this material. PolyMide™ PA12-CF can easily damage a brass nozzle after a few hundred grams of printing. Hardened nozzles are more expensive than regular brass nozzle so it is important to consider the amount of materials planned to be used. For some users it may be more cost effective to destroy one nozzle for some prints, but please note users are responsible for all printer 'wear and tear'.

Q: How well does Polymakers Warp-Free™ technology perform?
A:  With Polymakers Warp-Free technology, more users can effectively print PA12-CF with better dimensional stability than comparative nylon products. This technology works best when printing with low bed/chamber temperatures. Because the warping behaviour of Nylon materials is partially related to its crystallisation rate while printing. If a user does print with a high temperature heated bed or chamber, the heat will increase the crystallisation rate and cause a part to warp.

Q: Is annealing PolyMide™ PA12-CF required?
A: After printing, annealing PolyMide™ PA12 prints will ensure the highest degree of crystallinity. This is a recommended step as it allows end users to get the best properties and performance from their parts. PolyMide™ PA12 can be annealed in a convection oven at 80˚C for 6 hours. Of course annealing may not be required for applications that don't require the best thermal or mechanical properties. In some rare cases with fine or thin geometries, different annealing instructions or design considerations may be required for the best results.

Q: Will this filament absorb moisture?
A:  Yes, Polyamides are hygroscopic, meaning that they absorb moisture from the air. Some grades are more sensitive to moisture than others but regardless it's important to keep all nylon filaments dry for the best printing process. Polymaker nylon filaments are dried from the factory to ensure customers can achieve excellent results straight away, we recommend keeping your spool of PolyMide™ PA12-CF dry as moisture can significantly reduce mechanical properties and cause print defects such as oozing and poor surface quality. To prevent moisture absorption in your filaments, it is recommended to use the PolyBox™ which provides a stable, low level humidity storage solution for filaments during and in-between printing. If PolyMide™ PA12-CF appears to have absorbed too much moisture, they can be dried in a preheated convection oven for 12 hours at 80˚C.

Q: Is PolyMide™ PA12-CF suitable for high humidity or "wet" applications?
A: PolyMide™ PA12-CF is the best and most stable choice for high humidity applications when compared with PA6-CF or PA612-CF. Submerged parts in PolyMide™ PA12-CF will perform better than those printed in PA6-CF with better strength, stiffness and dimensional stability, making it a suitable choice for real-world applications. If moisture sensitivity in real-world applications is less of a concern, PolyMide™ PA6-CF may be suitable and if you are looking for a combination of the mechanical properties that PA6 offers and care about moisture sensitivity, PolyMide™ PA612-CF may be a good option to consider.

Q: What support materials can I use with this product?
A:  On multi-material printers it's recommended to print with Polymaker’s PolySupport™ for PA12, a dedicated break away support material for Polymakers long-chain nylon filaments. PolySupport™ for PA12 works best for 3D printing geometric models such as jigs and fixtures or covering parts since PolySupport™ for PA12 will be removed faster and more easily than a dissolvable support.

Q: Should I rewind this filament if I want to use it with a different spool?
A: We strongly advise against tampering with the product by rewinding. See our article for full details about the risks. All Polymaker filaments are wound with tension but without strain. Rewinding completely rearranges the curvature of the winding and this strain over time can cause most plastics to catastrophically break. If for some reason your printer is locked into fitting less than standard sized spools, there may be safe printable adaptors or external mounting solutions available.

Don't know where to start? Or which filament will suit your application? We have a broad range of support options including telephone support. Contact us today!