Our customers save 52.7%* or more on plastic parts with 3ntr industrial 3D printers.

The most economical and versatile 3D printers for additive manufacturing


Build Envelope 23.6 x 12.7 x 19.6 inches / 600 x 325 500 mm

Maximum Extruder Temperature 430 C / 806 F

Maximum Bed Temperature 160 C / 320 F

Maximum Chamber Temperature 90  C / 194 F


Build Envelope 11.6 x 7.6 x 7.4 inches / 295 x 195 x 190 mm

Maximum Extruder Temperature 430 C / 806 F  

Maximum Bed Temperature 160 C / 320 F

Maximum Chamber Temperature 90  C / 194 F

How do we do it?


  • Captive, expensive materials
  • Glitzy expensive design
  • Private planes and posh offices
  • Exorbitant acquisition cost
  • Dysfunctional toys making unusable parts
  • Unconscionable maintenance fees, service charges, preposterous license fees, nozzle charges and other rip offs


  • Open systems to maximize the versatility of your asset
  • Robust, straight-forward industrial design; reliable doesn’t need to be pretty
  • Down to earth people that live and breathe manufacturing
  • Fair acquisition cost and financing options
  • Unsurpassed parts quality and dimensional accuracy
  • Maintenance friendly - most issues can be addressed by user or extensive national TRAK service network


Print in materials including:
ABS, ASA, PPS, nylon, nylon carbon, PETG, TPU elastomers, glass filled polypropylene, PEKK,  and more. 

3ntr printers print with a wide range of open-source engineering thermoplastic materials for many different applications. Because you’re no longer held captive to expensive OEM materials, the material cost savings can be huge! The printer itself creates beautiful, repeatable parts that hold their tolerance over time.

With 3 liquid-cooled print nozzles, you can even print in multiple materials – on the same part.

See the materials summaries below. Compare materials on our data sheet here

ABS is one of the most widely used engineering thermoplastics due to its impact resistance, toughness,  and low cost.

View data sheet

A UV-resistant weatherable polymer, our ASA has a low-gloss matte finish that makes it a perfect filament for technical prints – especially when you don’t want the high-gloss surface finish often associated with many other 3D printing materials such as ABS, PETG, or PLA. ASA’s UV-stability makes it an ideal material for outdoor applications that will experience intense exposure to the sun and weather.

ASA’s exceptional mechanical and thermal properties – coupled with excellent UV-stability – is why this resin is used by the Auto, Marine, and RV industries for exterior applications.

View data sheet

PETG, glycol-modified polyethylene terephthalate, is a copolyester that is a clear amorphous thermoplastic. PETG is known for its high stiffness, hardness, and toughness as well as good impact strength.

  • TECH-G is a modified PETG material which is an odorless polymer material that comes in a clear transparent color.
  • guidel!ne is a unique high strength PETG based material with excellent high temperature printing capabilities.

TPU (thermoplastic polyrethane) is any engineering thermoplastic in the class of polyurethanes.  TPU properties include elasticity, transparency (when desired) and resistance to oil, grease, abrasion and tearing.  Plural’s TPU is formulated for 3D printing/additive manufacturing applications.

View data sheet – TPU shore 75D

View data sheet – TPU shore 85A

View data sheet – TPU shore 95A

Nylon is a strong, versatile, and durable alternative to ABS. When using nylon material, the end product will be lighter and more flexible. It’s easily dyed with standard textile dyes, allowing for endless color combinations.

View data sheet for nylon 645

View data sheet for nylon alloy910

View data sheet for nylon carbon

View data sheet for nylon carbon+

Created in partnership with 3ntr and FILOALFA for 3ntr machines, nPower is a PPS filament that delivers high strength and superb thermal/chemical resistance for high performance applications. nPower is an excellent alternative when standard polymers (ABS, PC, PETG, PS, PA) won’t do the job and can often replace high-cost polymers, such as PEEK and ULTEM. nPower has been specially formulated for 3ntr industrial 3D printers. Laboratory testing has been completed.

View chemical resistance table

View material datasheet

iglide® Tribo-Filament by igus has been specially developed to be 50 times more abrasion-resistant than conventional 3D printing materials like ABS. The self-lubricating properties provides a new degree of freedom when designing gliding components subject to wear.

Learn more on the igus website→

Combining the strength and heat resistance of PolyCarbonate (PC) with the flexibility of ABS, PCABS is known as one of the most durable engineering thermoplastics available. It is widely used in the automotive industry due to its toughness, performance, and ability to be metal-plated. In addition to its durability, PCABS also offers an excellent surface finish for creating end-use parts.

View data sheet

We offer multiple support materials to fulfill your needs. Below are highlights of the main types we offer.


  • Manual removal
  • Prints in a heated chamber and is compatible with ASA, ABS, and PCABS.
  • The removal process is straightforward and fast which allows you to achieve the shortest time from print to finished part.
  • View Technical Data Sheet


  • Removed with Plural’s BioSolv solution. Read more information about BioSolv here.
  • Prints in a heated chamber and is compatible with ASA, ABS, and PCABS.
  • This support is recommended for intricate parts that could be damaged by manual removal of support, or where overhangs and trapped material can’t be manually removed.
  • Used in conjunction with a heated solution in ultrasonic and/or agitation tanks, SSU01 removes cleanly with no damage or degradation to the object material.
  • Note: When printing with SSU01, use the object material for the raft (ABS, ASA or PCABS) and use SSU01 for the interface and support functions.  BioSolv’s removal requires the use of heated ultrasonic and/or agitation tanks.


  • Manual removal.
  • Is used for nylon and filled nylon materials like our NylonCarbon (PA12CF) and NylonGlass (PA12GF) that prints in an 80°C chamber.
  • This support is only recommended for the listed nylon materials. The removal process is quick where part geometries permit its use.


  • Is a soluble support that is removed using hot water with removal being accelerated by the addition of ultrasonic or agitation of the heated water in the tank.
  • Prints in a cool chamber and works well with TPU and PETG and its derivatives.
  • SSU03 support is simple and easy to use, but does require some caution with temperatures for its use. Please see Plural’s “Printing with SSU03 Support” guide sheet.  Virtually any part geometry is possible in TPU or PET-G and its derivatives using SSU03.


  • Manual removal.
  • Is specifically formulated for 3ntr’s very high temperature and solvent resistant material, nPOWER.
  • SSU05/nPOWER requires a very hot chamber and print bed temperatures, producing parts that have a working temperature of 210°C and are almost impervious to solvents.

Look who's saving with 3ntr:

How Much can you Save?

Free cost analysis + Free “living hinge” multi-material sample part

Get instructions on how to submit one of your typical digital part files and a Non Disclosure Agreement from Plural Additive Manufacturing, the exclusive importer of 3ntr systems in North America. Once we analyze and slice your part we can tell you how much you should save.

Of course there is no commitment and no obligation, and for limited time, we’ll send you a 3D printed multi-material “living hinge” sample part just for reaching out to us. 

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3ntr printers are made in Italy with pride.
Sold in North America exclusively by Plural Additive Manufacturing, the leading additive manufacturing integrator.