3d Nylon

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3d Nylon




Tough and partially flexible
High impact resistance
No unpleasant odor while printing
Good abrasion resistance







Prone to Warping
Air-tight storage required to prevent water absorption
Improperly dried filaments can cause printing defects
Not suitable for moist and humid environments



Use an Enclosure to Prevent Warping




If you do not have air-tight containers for storing your filament, you can dry the spools just before use by running them through a Food Dehydrator. A few hours in this device will dry the filament significantly.
Nylon makes a good filament for cleaning your nozzle. You can use a technique called “cold pulling” where you allow the Nylon to bond to debris within the nozzle, and then after it partially cools, you pull the filament (and debris) out of the hotend.





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Nylon is a tough and semi-flexible material that offers high impact and abrasion resistance. It is an ideal choice for printing durable parts.



Nylon (a.k.a. Polyamide) is a popular material in the plastics industry, known for its toughness and flexibility. Nylon filaments typically require extruder temperatures near 250 ºC, however, some brands allow printing at temperatures as low as 220 ºC due to their chemical composition. Many printers do not include a hotend that can safely reach 250 ºC, so these lower-temperature versions can be useful and potentially save you from needing to upgrade your hotend. One big challenge with Nylon filaments is that they are hygroscopic, which means they readily absorb moisture from their surroundings. Printing Nylon after it has absorbed moisture will lead to several print quality issues, thus filament storage becomes very important and requires special attention.
Before 3D printing with Nylon make sure your 3D printer meets the hardware requirements listed below to ensure the best print quality.
Temperature: 70-90 °C
Heated Bed Required
Enclosure Recommended
Temperature: 225-265 °C
May require All-Metal hotend
These tips will help you reduce the chances of common 3D printing issues associated with Nylon such as warping and moisture absorption.
One of the challenging aspects of using Nylon is the need for a special storage system. Unlike other filaments, you cannot keep the filament spool exposed to the air for extended periods of time. Nylon easily absorbs moisture from the environment. Printing the moist filament will result in print quality issues like a foggy rough surfaces or even tiny holes or bubbles on the exterior. These printing issues can also significantly decrease the strength and performance of the printed parts. The typical solution for this issue is to remove the Nylon spools from the printer once you are done, and store the spools in an air-tight container along with some desiccants to remove the moisture from within. If you do not want to constantly mount and remove your filament spool, there are also commercially available storage containers that will keep the filament dry, while allowing it to feed out of a hole in the container.
Some high-temperature Nylons are prone to warping due to the large temperature change between the extruded plastic and the ambient environment. Heated beds can reduce the warping to a some extent, but using a printer that has a heated chamber or enclosure would be the ideal solution. Keeping the air around your part at a temperature of about 45 ºC will help eliminate warping by reducing this temperature variation. If your printer doesn’t include a heated chamber and you aren’t able to add an enclosure, there are other tips that you can use to help prevent warping. Our Print Quality Guide has an entire section devoted to this issue which summarizes other common techniques: How to Prevent Warping .
In situations where adding an aftermarket enclosure may not be an ideal option, consider using a brim or a raft to help with first layer adhesion. Adding a brim will add several loops around the bottom layer of your model, creating a larger surface area to hold down the edges of your print. Version 4.0 of Simplify3D introduced a completely new raft design that can also be very useful if you continue to have printing difficulties. For more information on the differences between rafts, skirts, and brims, please consult our in-depth article on this topic .
Nylon can be a great material once you have mastered the basics. Once you’re ready to give it a try, here are some tips to help you get started.
ABS is a low-cost material, great for printing tough and durable parts that can withstand high temperatures.
PLA is the go-to material for most users due to its ease-of-use, dimensional accuracy, and low cost.
PET and PETG filaments are known for their ease of printability, smooth surface finish, and water resistance.
Polypropylene is great for high-cycle, low strength applications due to its fatigue resistance, semi-flexible, and lightweight characteristics.
How does Nylon compare to other popular materials?
Click below to view our extensive Properties Table with a complete side-by-side comparison.

How to 3D Print with Nylon: Nylon filament temperature wants to be around 240°C-260°C and up (to around 290°C ) . We recommend incrementally experimenting with temperatures above this to find your ideal settings. Heated bed at around 80°C+. We recommend 100 °C or more even, as Nylon is sensitive to cooling too fast, and that causes warping. To aid adhesion, use a PVA glue stick on a glass or metal print bed . Kapton tape can work also. Ultimately for best results, we suggest using a Tufnol sheet as a bed surface. This seems to work the best for Nylon, which is prone to warping if you don’t use the right surface. Make sure layer cooling fans are off and you’re not printing in a drafty or cool environment. Use an enclosure or heated chamber. As with ABS, Nylon parts may warp or curl if the part cools too quickly. Make sure you use dry Nylon filament. Nylon is extremely hygroscopic and wet nylon is weaker, rougher, and bubbly.
3D Printing Nylon vs ABS: Which Is Stronger? 
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Nylon is extremely tough, resistant to heat, large shocks and impacts, and doesn’t scratch or wear down easily — no wonder it’s considered one of the best 3D printer filaments .
We’ve included our top Nylon filament 3D printing tips, as well as recommending the best Nylon filaments you can buy today.
Nylon is a form of polyamide, with forms such as PA12 commonly used in SLS 3D printers .
Nylon filament is known for being extremely tough and durable, as well as for its flexibility. Though ABS is known for its toughness, Nylon is a step above, with very high impact resistance, abrasion resistance and increased flexibility.
While filaments like PLA can be brittle, Nylon is tough, and when printed thick it can handle large shocks and impacts. Unlike ABS, it does not print with bad odors.
This makes it ideal for functional parts that can be made quickly using rapid prototyping , tested for errors, and quickly iterated on.
Nylon also offers very good surface finish if you use the right 3D slicer and printing settings, and despite the toughness can be printed very intricately and accurately. We discuss the best settings for 3D printing Nylon further on in our Nylon filament guide.
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There are a number of popular Nylon filament brands and types. The cheapest Nylon filaments can cost as low as $30 per kilo, whereas NylonX is more expensive as it is mixed with carbon fiber, as is NylonG which is mixed with glass fibers for added strength.
MatterHackers PRO Series Nylon is a premium material at a not so premium price. It’s made with some of the tightest tolerances among major manufacturers, with thorough quality assurance testing and a formula based on high-purity additives.
MatterHackers PRO Series Nylon is particularly well suited to applications that need a tough, impact-resistance filament with decent flexible properties.
MatterHackers also offers a broad range of colors, unlike many other manufacturers who stick to one or two plain colors, usually black and white.
MatterHackers NylonG glass-fiber-reinforced filament is a high-quality material designed to reduce Nylon’s natural flexibility, boosting impact resistance and tensile strength. It does this while still keeping its shape and structure intact even under heavy loads. Real-world applications include aerospace development and prototyping, automotive manufacturing, and others where structural integrity is critical.
Though a premium Nylon filament, MatterHackers NylonG remains reasonably priced for the quality on offer and is available in the company’s signature range of colorful options.
MatterHackers NylonX marries Nylon with micro-carbon fibers to create a tough, stiff, and durable engineering-grade material for functional, high wear-and-tear, shatter-resistant parts. It’s one of the most popular and best carbon fiber Nylon filament available.
Though MatterHackers NylonX is only available in matte black, the finish is smooth and requires no post-processing. It’s a high-performance filament with a price tag to match and is easier to print than standard Nylon as it’s less prone to warping due to the carbon fiber filling.
The last of MatterHackers composite Nylon filament, MatterHackers NylonK is reinforced by Kevlar fiber, the same stuff used for ballistic body armor. It’s accordingly durable under heavy stress, stiff, and extremely abrasion-resistant. In action, NylonK works incredibly well for parts subjected to sustained friction and is the best Nylon filament for heavy-duty applications.
The color palette is limited to black, but the filament’s properties mean it’s best suited to the most demanding application where aesthetics factor in low on the list or priorities. NylonK costs a little more than MatterHackers’ other Nylon, but remains competitively priced for what it is.
Pulling the price down in line with most PLA brands, Overture Nylon stands as a low-cost option for beginners trialing Nylon printing for the first time. Though bearing a budget price, Overture Nylon doesn’t cut any corners in terms of raw materials and the filament delivers consistent, good-quality prints.
Overture’s signature paper spool wins points. The Nylon is also odorless when melted and features zero warp technology to ease those common first-layer problems. The color palette is pretty limited, but you won’t catch us complaining at that price.
eSUN ePA Nylon is a solid choice if you’re looking for something a little more reliable than the ultra-budget options. It boasts excellent all-round resistance to heat, chemicals, impact, and wear with a classic tough, durable, and reasonably flexible Nylon profile. It’s somewhat prone to warping, but nothing a good dollop of glue or Magigoo and a PEI surface won’t help mitigate.
Because eSUN EPA Nylon ships transparent, it’s particularly well suited to dyeing and absorbs color well. So, though there are no colors to choose from, you can quickly adapt the filament to your project’s needs. eSUN also claims the filament is non-toxic.
Polymaker PolyMide CoPA is a high-quality, premium filament designed to merge easy printing with properties fit for the most demanding applications. It’s strong, tough, and heat resistant up to 180°C. 
Among commercially available Nylon, Polymaker PolyMide CoPA is one of the least susceptible to first-layer woes courtesy of Polymaker’s Warp-Free technology, which is not just marketing spin but a genuine feature.
Polymaker PolyMide CoPA ships in a resealable vacuum bag, so you won’t need to source a purpose container to keep it dry between print sessions. Color is limited to black, and the asking price is comparatively high, but the quality of the printed filament justifies the higher price tag.
Polymaker PolyMide PA6-CF combines PolyMaker’s standard PA filament Nylon with carbon fiber. The carbon reinforcing ensures the material is stiff, durable, and heat resistant while also making it less challenging to print with superb layer adhesion.
As with Polymaker’s other PolyMide filament, PA6-CF features Warp-Free technology. It deflects heat up to 215°C. It excels for the most demanding engineering applications; just make sure you have a hardened, wear-resistant nozzle for the best results.
Last but not least in Polymaker’s Nylon range, we have Polymaker PolyMide PA6-GF. This time, the Nylon is reinforced with glass fiber for superb impact resistance and the usual thermal and mechanical properties you’d expect from Nylon. 
It’s designed to keep warping to a minimum, thanks to Polymaker’s Warp-Free technology. While a high-quality product, PolyMide PA6-GF is among the cheapest Polymaker Nylon-filled materials.
colorFabb PA Neat is a straight Nylon FDM filament with low-warp properties designed to retain its mechanical and temperature resistant properties up to 120°C. It’s a premium filament that’s tough and produces consistently impressive prints.
Taulmann Glass Fiber Alloy Nylon is another glass fiber reinforced Nylon we have no qualms recommending. It’s affordable and represents the culmination of a year’s worth of research on Taulmann’s part to nail the perfect formula.
It features a custom Nylon-glass fiber blend designed to meet the tensile and thermal resistant needs of demanding industries like aerospace, automotive, and defense.
A professional option targeting manufacturing and engineering applications, Ultimaker Nylon is one of the best Nylon 3D printer filament options if you have the cash to spare. Ultimaker Nylon is engineered to resist ambient humidity far better than most Nylon brands, meaning reduced moisture absorption, largely removing the need to dry filament if stored correctly.
It features a balanced profile, juggling solid durability, corrosion resistance, and ductility up to 210% of its original form before breaking. Note it’s only available in 2.85 mm filament diameter.
Fiberthree F3 PA Pure Pro is an unfilled PA 6 Nylon with high tensile strength, low moisture absorption properties, and a solid resistance profile covering heat, chemicals, and abrasion.
Printed parts come out with a smooth surface finish. Fiberthree F3 PA Pure Pro’s low warp properties and solid adhesion performance make printing a tad easier than a big chunk of the other Nylon filament brands on the market. 
At $83.00 for a kilo spool, Fiberthree F3 PA Pure Pro hits the wallet quite hard, so we don’t recommend the investment unless you need a high-quality Nylon filament.
Matterhackers Pro Series Nylon offers outstanding quality filament at a reasonable price. Additionally, Matterhackers proposes a broad range of colors to choose from in the Pros Series Nylon range, along with two 1.75 mm and 2.85 mm options. Matterhackers Pro Series Nylon comes highly rated for commercial prototyping.
Overture Nylon is another excellent choice for those sticking to a budget and willing to sacrifice quality for a lower price. We see it as a perfect choice for beginners trying their hand at Nylon for the first time. We particularly like the anti-warping and odorless features. It’s available in 1.75 mm, either in gray or black.
Also worth mentioning for businesses and designers not willing to compromise on quality is Ultimaker Nylon . Premium through and through, it delivers quality prints with also a nod to nylon’s tricky storage with work done to minimize moisture absorption. You’ll find Ultimaker Nylon available in 2.85 mm diameter, in either black or transparent.
Prices vary based on the type and blend, but generally the cheapest nylon filaments cost around $30 per kilo. High-quality nylon filament can cost between $60 and $80, and other blends such as carbon fiber or glass-infused blends can cost significantly more.
You typically won’t find it snapping like brittle materials. When printed in thick parts, with higher density infill and wider wall thicknesses it produces a very strong part that can handle significant shock and has excellent impact resistance.
However when printed thinly it becomes very flexible – think living hinges and other high use parts.
This means Nylon is ideal for moving parts. If you need a bushing for a lower RPM shaft where a bearing would be too small or unnecessary, Nylon would be the perfect material. Or those white gears in RC car gearboxes? They’re Nylon, and they don’t need lubrication because of the low friction coefficient.
Have you ever tried to break a cable tie, using your hands? It likely didn’t work out too well. They’re usually made from Nylon – for good reason. Nylon rope is also very common, having exceptional tensile strength.
As a result, Nylon parts are not only strong, but have great impact resistance. This makes Nylon filament ideal for parts that will come under a lot of strain and force, such as in mechanical gears and functional parts.
Some Nylons are prone to warping as a result of the huge change between the printing temperature and the outside environment. A heated bed can help, especially with the bottom layers, but a heated chamber or enclosure works far better at controlling warping and curling.
If necessary, consider using brims or rafts to prevent warping , and use the correct heated bed and extruder temperatures for the best results.
Dry filament prints better quality, stronger, and more crisp surface finish parts.
In the image below, you can see two Moai, printed exactly the same with the same settings. The one on the right has just been left out for a week, to absorb some moisture from the air. From the photo the difference is subtle, but look closely and you’ll see some differences. 
Nylon filament that’s absorbed water before printing will lead to poor print finishes, or even popping in the extruder. You can see the surface of the water exposed (right) Moai is frosty, with wispy stringing on the surface. 
The dry Nylon filament on the left has a nice smooth sheen, and you can faintly see the large pattern infill inside, showing it’s slightly transparent. There’s also a lot more detail on the dry Nylon 12 figure. 
In worst case scenarios you’ll hear popping while printing, which will also give the print a very rough surface. Nylon delamination can also be caused by moisture, but is usually a symptom of not being printed hot enough. 
Rule of thumb with Nylon? Always dry it before use.
As a durable, abrasive material, nylon takes a toll on a 3D printer, which is why an all-metal extruder capable of reaching temperatures, ideally up to 300°C, is vital for successful nylon printing.
Nylon’s temperature sensitivity means you’ll need to provide the requisite heat, chiefly from the extruder.
But, also by using a heated bed reaching temperatures around 100-degrees centigrade for the best results. Doing so guarantees better adhesion and reduces the likelihood of unwanted warping.
Nylon is commonly used to create durable and long-lasting plastic gears, screws, hinges, nuts and bolts and cable ties. Beyond this, custom parts that need to be strong, as well as somewhat flexible, are often best for Nylon.
Nylon is commonly used to make gears due to its low friction and good abrasion resistance, with its flexibility also making it useful to create hinges. Within 3D printing, Nylon is used in durable parts for rapid prototyping, as well as often in homemade maker projects such as
Sex Little Kitties
Soft Girl Korean
My Big And Horny Sisters Anime