NinjaFlex is one of the strongest yet most flexible filaments you can find. NinjaFlex is incredibly easy-to-feed and is ideal for making parts like iPhone cases, iPad cases, and bracelets. You can make anything that requires some bend and flex while maintaining strength.
NinjaFlex has developed quite a following in 3D printing circles because it's a very durable filament which is completely flexible. The flexibility of this filament actually makes it quite resilient and sturdy. NinjaFlex is great for creating household goods like iPhone or iPad cases.
One of the best things about NinjaFlex is that it was designed to facilitate a smooth flow through your 3D printer. That means it won't get stuck or cause a jam half way through your print!
NinjaFlex is ideal for 3D printers that can print in PLA and ABS. More importantly, NinjaFlex is optimal for 3D printers with direct-drive extruders. Be cautious about printing this filament if your 3D printer has a bowden tube (like the Airwolf HD). Printers with a bowden tube have a tendency to get jammed while printing NinjaFlex or TPE filaments. That being said it can be done with a bowden tube but we recommend proceeding with caution.
We recommend printing NinjaFlex at between 210 - 225 °C with a bed temperature of 20 - 50 °C. For print speed start off with 30mm/s and adjust it up or down as needed to perfect your print (remember each 3D printer is different and requires slightly different settings).
Will NinjaFlex Work with my 3D printer?
While NinjaFlex has been used successfully on many 3D printers (MakerBot Replicator 1, Replicator 2, Replicator 2x, MendelMax, RepRap, Ordbot, and Airwolf), it has not been tested on every model. In general, NinjaFlex performs best in printers with direct-drive extruders using settings similar to standard rigid ABS filament.
Will NinjaFlex work with Bowden extruders?
Bowden extruders are not ideal for printing flexible filaments such as NinjaFlex due to the excessive distance between the stepper motor and the extruder head. However, some users have generated successful prints using reduced speeds.
I am unable to get NinjaFlex to feed. Any suggestions?
In order for flexible filaments such as NinjaFlex to feed properly, a spring-loaded feed mechanism with a roller bearing is required. Also, the extruder must support the filament between the exit of the drive gear and the entrance to the melt chamber.
Will NinjaFlex feed well through plastic guide tubes?
While the low coefficient of friction surface of NinjaFlex has been formulated to reduce surface tack and allow the filament to feed more easily, the use of PTFE guide tubes may be beneficial to further reduce pull at the extruder.
Are there any special printer settings that need to be adjusted for NinjaFlex?
NinjaFlex generally works well at similar extruder settings to ABS, however adjusting the printer's retraction settings can improve stop/start print quality. Also, it may be necessary to reduce the print speed to approximately 30mm/s.
My prints are coming out stringy. What can I do to improve quality?
The strings are caused by the material not freezing off quickly enough at stop/start. There are multiple factors that come into play: extruder temperature, build platform temperature, ambient temperature, and retraction settings. As the melted filament comes out of the extruder, it should have just enough energy to re-melt the existing surface (to provide adequate bonding). The colder the ambient, the build platform, and the starting temperature of the filament, the more quickly it will freeze off. If temperatures cannot be adjusted, the amount of filament that is retracted at start stop may be increased. For 1.75mm filament, 2-3mm of retraction works well. Another option is to increase convection heat transfer with a ducted cooling fan.
Is NinjaFlex food or medical grade?
Although NinjaFlex does not contain BPA or other toxins, it is not recommended for food or medical applications.
Is NinjaFlex water resistant?
While occasional contact with water will have no adverse effect on NinjaFlex, the product will degrade and lose its elastic properties when submerged in water for extended periods of time.
What is the maximum recommended temperature for printed NinjaFlex parts?
The recommended maximum temperature for NinjaFlex printed parts is 150 °F.
What is the minimum recommended temperature for printed NinjaFlex parts?
The recommended minimum temperature for NinjaFlex printed parts is -22 °F. Below this temperature, printed parts will become increasingly brittle and may shatter.
Is a heated build plate required in order to print with NinjaFlex?
While each printer may have unique settings, in most printers, a heated build plate is not required in order to successfully print with NinjaFlex.
Is it necessary to coat the build platform with Kapton ? tape or hairspray?
NinjaFlex bonds well to most surfaces (including aluminum and glass), so coating the build platform is not necessary. Kapton tape can be used with NinjaFlex, but the adhesion of the printed part to the tape may be stronger than the adhesive holding the tape to the build platform.
Can NinjaFlex be used with support Material?
Yes, NinjaFlex works well in prints with support material and can easily be removed once the print is complete.
Any other tips for using NinjaFlex?
When switching from another polymer (such as ABS or PLA) purge thoroughly before starting a print. As with other materials, when preheating, use a lower Temperature (~180-200 °C) to prevent excess material from draining prior to starting a print.
Is NinjaFlex colorfast?
NinjaFlex filament is colorfast, and therefore, the color will not leach from the product.
Is NinjaFlex chemical resistant?
While NinjaFlex is resistant to most oils, it is highly affected by solvents, acids, and fuels such as gasoline. If the printed part should need to be cleaned, a mild soap solution is recommended.
Does NinjaFlex hold Similar detail to ABS or PLA?
Yes, once printer settings are dialed in, NinjaFlex should deliver similar detail to rigid materials. For tall thin parts, supports may need to be designed-in to prevent the model from flexing as the print head traverses.
How can I bond NinjaFlex parts?
NinjaFlex has a very low surface energy, so it typically does not bond well with adhesives; however, Gorilla Glue seems to provide moderate bonding. The best way to connect NinjaFlex parts is with a hot knife welder.
Is NinjaFlex able to accommodate any bridging (crossing open unsupported spans)?
Yes, NinjaFlex behaves similarly to ABS in this regard and may be substituted in prints designed for ABS.
Are there any safety concerns or considerations when using NinjaFlex?
NinjaFlex should be used in a well-ventilated area according to recommended operating conditions. TPE products are capable of releasing small amounts of fumes at high temperatures. While these fumes are generally considered tolerable and less noxious than ABS, care should be taken to minimize exposure, particularly among sensitive persons.
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