Professional 3d printers review
The Best Cheap 3D Printers for 2022
While we'd hesitate to call 3D printing a mature technology, you might say it has reached its teenage years. Through their first decade-and-change, 3D printers have come down in price, grown easier to set up and operate, and become more reliable. And you may pay less than you expect: Many once-high-end features have migrated down to inexpensive models.
PC Labs has been reviewing 3D printers since 2013. Today, the state of 3D printing is strong, but that wasn’t always the case. For the first several years, it was often an adventure getting one of these printers up and running, let alone successfully through our testing regimen. Issues with filament-based—aka fused filament fabrication (FFF) or fused deposition modeling (FDM)—printers were abundant.
Filament feeders had to be coaxed into delivering filament from the spool to the extruder. Print beds had to be manually aligned. The extruder or hot end had to be positioned just right to minimize the gap between the nozzle and the build plate (the flat surface on which the object is printed). Objects frequently stuck to the build plate, and required careful, sometimes unsuccessful, efforts to pry them off. These and other issues required painstaking effort to resolve, often combined with calls to tech support.
Not so much anymore. While they can still be rebellious at times, 3D printers have grown up a lot, and achieving the 3D printer basics has gotten a lot less likely to end in a shouting match over small things. And they've gotten a lot more affordable, too, for curious DIY-ers and hobbyists to try.
If you're in the market for a beginner or low-cost 3D printer, it's important to know how lower-end models differ. Read on for mini-reviews of the top budget 3D printers we've tested. After that, we go into more detail on understanding the 3D printer specs and tech relevant to beginning buyers. Ready to take the plunge? Read on.
More About Our Picks
Original Prusa Mini
4.5 Outstanding
Best Overall Budget 3D Printer
Bottom Line:
It requires assembly and calibration care (plus shipping from the Czech Republic), but the Original Prusa Mini is a compact, open-frame 3D printer that consistently produces superb-quality output for a great price.
Pros
- Top-notch object quality
- Supports a variety of filament types
- Useful, professionally printed user guide
- Great support resources
- Versatile, user-friendly software
Cons
- First-layer calibration can be tricky
- Only includes starter packets of filament
- Requires monitoring if young children or pets are around
Read Our Original Prusa Mini Review
XYZprinting da Vinci Mini
4.0 Excellent
Best Budget 3D Printer for Schools, Community Centers
Bottom Line:
The XYZprinting da Vinci Mini is a consumer-oriented 3D printer that provides a winning combination of low price, ease of setup and use, solid print quality, and smooth, misprint-free operation.
Pros
- Very low price.
- Reasonably priced filament.
- Good print quality.
- No misprints in testing.
- Easy setup and operation.
- Quiet.
- Prints over a USB or Wi-Fi connection.
Cons
- Occasional problems in trying to launch prints.
- Removing printed objects from the print bed is sometimes tricky.
Read Our XYZprinting da Vinci Mini Review
Toybox 3D Printer
4.0 Excellent
Best Budget 3D Printer for Children
Bottom Line:
The Toybox 3D Printer works well as a model designed for children, offering reliable printing from a browser or mobile device and a few thousand toys to print, plus creative options to output drawings or photos. Just bear in mind the tiny build area.
Pros
- Reliable, misprint-free printing
- Easy setup
- One-touch operation
- Well-composed help resources
- Access to more than 2,000 printable toys and projects
- Lets you create your own printable designs
Cons
- Tiny build area
- Not ideal for importing 3D files created elsewhere
Read Our Toybox 3D Printer Review
Monoprice Mini Delta V2 3D Printer
4. 0 Excellent
Best Budget 3D Printer for Beginners, Non-Techies
Bottom Line:
3D printing gurus will be intrigued by the Monoprice Mini Delta V2's use of the delta rather than Cartesian coordinate system, but beginners will just enjoy its low price, ease of use, and speedy printing.
Pros
- Sub-$200 price
- Quick, nearly misprint-free printing
- Easy setup and operation
- Sturdy steel-and-aluminum frame
- Supports multiple filament types
Cons
- Tiny build area
- So-so print quality
- Mere one-year warranty
Read Our Monoprice Mini Delta V2 3D Printer Review
Anycubic i3 Mega S
3.5 Good
Best Budget 3D Printer With an Open Design, Big Build Area
Bottom Line:
The Anycubic i3 Mega S, an inexpensive open-frame 3D printer, produced decent-quality prints in our testing. To get the most out of it, though, may require precise calibration.
Pros
- Modestly priced
- Large build area for an inexpensive printer
- Supports a variety of filament types
- Generally solid print quality
- Uses well-known Cura software
Cons
- Finicky print-platform alignment
- Supported coils of filament are small
- Poorly placed spool holder
Read Our Anycubic i3 Mega S Review
Anycubic Vyper
3.5 Good
Best Budget 3D Printer for the Biggest Build Area Possible
Bottom Line:
Anycubic's modestly priced Vyper whips up large 3D prints on its open-frame design, and provides automatic print-bed leveling. Just know that some minor assembly is required—and printed objects may require a bit of cleanup.
Pros
- Relatively large build area
- Automatic bed leveling
- Simple assembly
Cons
- Short (one-year) warranty
- Includes only a small starter filament coil
- Using Cura software with the Vyper requires tweaking a couple of settings
- Test prints showed some "hairy" filament residue
Read Our Anycubic Vyper Review
Creality Ender-3 V2
3. 5 Good
Best Budget 3D Printer for Tinkerers and DIY Types
Bottom Line:
Hands-on tweaking defines Creality's budget-price Ender-3 V2, an open-frame 3D printer that you build from a kit. It produces generally above-par prints, but its print bed can be tricky to keep leveled.
Pros
- Inexpensive
- Slightly above-average print quality
- Good-size build area for its price
- Supports several filament types
Cons
- Manual print-bed leveling can be tricky
- Setup instructions could be deeper, more legible
- Questionable quality control on some parts
Read Our Creality Ender-3 V2 Review
Flashforge Finder 3D Printer
3.5 Good
Best 3D Printer for the Very Tightest Budgets
Bottom Line:
The Flashforge Finder 3D Printer is moderately priced and offers good print quality, but it proved tricky to get up and running in our tests.
Pros
- Quiet.
- Good print quality.
- Connects via USB 2.0 cable, USB thumb drive, or Wi-Fi.
- Reasonably priced.
Cons
- Some objects pulled off the platform during testing.
- Poor documentation.
- Modest build volume.
- Limited to printing with polylactic acid filament (PLA).
Read Our Flashforge Finder 3D Printer Review
Polaroid PlaySmart 3D Printer
3.5 Good
Best Budget 3D Printer for Dabbling in Small Objects
Bottom Line:
The Polaroid PlaySmart 3D Printer is a compact, stylish 3D printer with above-par overall print quality, but, alas, a tiny build area for the money.
Pros
- Small, lightweight for a desktop 3D printer.
- Easy to set up and use.
- Supports PLA, PETG, and wood composite filaments.
- Multiple-color support.
- Wi-Fi camera monitors print jobs.
- Prints from USB drives, SD cards, or mobile devices.
Cons
- High price for its capabilities.
- Small build area.
- Too-brief warranty.
Read Our Polaroid PlaySmart 3D Printer Review
XYZprinting da Vinci Jr. 1.0 A Pro
3.5 Good
Best Budget 3D Printer With Closed Design, Roomy Build Area
Bottom Line:
The XYZprinting da Vinci Jr. 1.0 A Pro is a moderately priced closed-frame 3D printer with a large build volume and overall good performance, but a potentially balky filament-feeding system.
Pros
- Spacious build area
- Works with third-party filaments
- Self-leveling print bed
Cons
- Build plate is not heated
- Limited to PLA- and PETG-based filaments
- Guide tube is prone to detaching
Read Our XYZprinting da Vinci Jr. 1.0 A Pro Review
Monoprice Voxel 3D Printer
3. 0 Average
Best Budget 3D Printer for Cheap Filament
Bottom Line:
The Monoprice Voxel is an under-$400 3D printer that's easy to set up and use. It exhibits generally good print quality, but it was unable to print two of our test objects.
Pros
- Easy to set up and use.
- Budget price for printer and filament spools.
- Supports PLA, ABS, and several composite filament types.
- Versatile software.
- Prints over Ethernet or Wi-Fi, or from a USB thumb drive.
Cons
- Frequent misprints on certain test objects.
- Slightly balky touch screen.
Read Our Monoprice Voxel 3D Printer Review
How to Buy a Cheap 3D Printer
The biggest changes to 3D printers over the last few years have come to the cheaper models. Nowadays, many of those classic, ornery 3D-printing issues have been resolved (most of the time, anyway), even for consumer and bargain-priced 3D printers. Automatic print-bed leveling is the norm, and you can usually remove 3D-printed objects from heated and/or flexible build plates with a minimum of coaxing. And most 3D printer manufacturers have either developed and refined their own software, or have adapted an open-source printing platform such as Cura(Opens in a new window).
(Credit: Zlata Ivleva)
What separates more expensive 3D printers from cheap ones ("cheap" defined as $500 or less, for the purposes of this article) is often a select group of features. These include the build volume, the type of frame, the varieties of supported filament, the software, and the connectivity mix. Let's run through those in turn.
What's the Right Build Volume for a 3D Printer?
A 3D printer’s build volume is the maximum dimensions (HWD) of a part that it can print. (We say “a part” because a 3D-printed object can consist of multiple parts that are printed, then glued or otherwise pieced together. ) While the smallest build volume of any 3D printer we have tested is 3.9 by 3.9 by 4.9 inches, we consider any build volume smaller than 6 by 6 by 6 inches to be small, any between that and 10 by 10 by 10 inches as medium, and any printer with at least one build dimension of more than 10 inches as having a large build volume.
(Credit: Molly Flores)
As a general rule, inexpensive 3D printers have small build volumes, while more expensive ones have larger build volumes. This depends in part on the type of printer. Closed-frame 3D printers—and most semi-open models, which have a rigid top, base, and sides but are open in front and, often, back—tend to have small build volumes, while open-frame printers, lacking as rigid a physical structure, often have relatively large build volumes for the price. You'll want to weigh the build volume against the kinds of objects you will print.
Should I Get an Open-Frame or Closed-Frame 3D Printer?
Which brings us to the frame "form factor" question: open-frame versus closed-frame. Closed-frame 3D printers are boxlike devices, with a rigid base, walls (with a see-through door in front), and top. Among their advantages? They muffle the operating noise, as well as reduce the odor from melted filament (which is potentially an issue with ABS plastic), and they provide some protection for people or pets who might inadvertently touch the hot extruder. A downside: They tend to have smaller build volumes than open-frame 3D printers, which have fewer (often, no) walls to constrict them.
(Credit: Zlata Ivleva)
Low-cost 3D printers include both open-frame and closed-frame models, as well as a few stereolithography printers. If a relatively large build volume is a priority, you’re likely to get more bang for the buck with an open-frame model. Open-frames do have some clear downsides by definition: They tend to be noisy, emit odors when certain plastics are melted, and provide little protection for someone who might touch the hot extruder.
(Credit: Molly Flores)
Also, recognize some potential negatives of open frames, depending on the model. Some require assembly, being essentially kits, and most require more setup care than a closed-frame printer, plus more maintenance to keep them running smoothly. Still, these very traits should not deter—and may even appeal to—hobbyists and DIY folks.
What Should I Look for in 3D Printer Software and Connectivity?
Gone are the days when tinkerers had to cobble together several different programs to get a 3D printer to run. Manufacturers either include their own 3D printing program or modify an existing platform such as the open-source Cura.
3D printing software performs three main functions: processing an object file (resizing, moving, rotating, and in some cases duplicating it), slicing it (into virtual layers, based on your chosen resolution), and printing it. These are almost universally combined into a seamless process. Some high-end printers have software that supports a wider range of settings you can tweak, but even the basic suites work at least reasonably well.
More likely to vary among the cheaper set is the array of connection options from model to model. Nearly all have a USB Type-A port to fit a thumb drive for printing from document files. Most also have a USB Type-B port for connecting directly to a computer, and some offer Wi-Fi, too (or as an alternative), while a handful let you connect via Ethernet to share the printer across a local network.
Some printers support storing 3D files on an SD or microSD card (which may also contain the printer’s system files). Most 3D printer manufacturers (even the discount ones) have a mobile app to launch and monitor print jobs, and a few provide access to cloud services from which you can print.
While high-end 3D printers tend to have an abundance of connection choices, discount models vary widely in their choices. Some are generous and some are basic, so it pays to assess what a given model offers.
What Should I Look for in Filament Support?
Filament support tends to be a key area that separates the cheaper models from the higher-end ones. (See our guide to understanding 3D printing filaments for more particulars.) Inexpensive 3D printers tend to support a limited number of plastic filament types, some of them only PLA and/or ABS.
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3D Printing: What You Need to Know
3D Printer Filaments Explained
(Credit: Molly Flores)
PLA (polylactic acid) is a biodegradable, plant-based polymer, while ABS (acrylonitrile butadiene styrene) is the same tough plastic that Legos are made from. Objects printed from ABS are durable and nontoxic, though the material can be tricky to work with. ABS can emit an acrid, unpleasant odor during printing, and the bottom corners of objects being printed with it have a tendency to curl upward a bit, especially if you are using a non-heated print bed. This can lead to unsightly prints, and/or prints prematurely pulling off the build plate, ruining them.
Many entry-level and low-price 3D printers stick exclusively to PLA. If you want to experiment with a larger variety of filaments—which include water-soluble filament, wood- and metal-laced composites, and both tough and flexible varieties—you may have to pay more, although a few discount models support a wide range of materials.
Should I Consider a 3D Printing Pen Instead?
Although they aren’t printers per se, inexpensive 3D pens are close kin to 3D printers—using the same filament types and a similar extrusion system—and we include them in the 3D printing category. Rather than tracing out a programmed pattern, you use the 3D pen much like a normal pen, except that you draw with molten plastic. You can trace a pattern or draw freehand, and even draw in three dimensions as the plastic quickly solidifies and hardens once extruded.
(Credit: 3Doodler)
Most 3D pens cost less than $100, and some cost $50 or less. At a glance, 3D pens may appear to be toys, but some artists and craftspeople have taken to them, as it is possible to make quite complicated and beautiful objects with them. If your aim in 3D printing is something closer to freehand design and free expression than computer-centric, structured, and repeatable output, you might give one a try.
So, What Is the Best Cheap 3D Printer to Buy?
Buying a budget 3D printer needn’t mean a world of sacrifice. Plenty of capable and reliable models sell at less than $500, and while they may not be as feature-rich as their more expensive cousins, there's no sense in paying for things you don’t need.
Many casual 3D-printing experimenters will be fine with printing over a USB cable or from a thumb drive, and sticking to PLA may be the best choice for a starter 3D printer. If you focus just on the features you want, you may be pleasantly surprised at what you find. Below, check out a spec breakdown of the best under-$500 3D printers we have reviewed, paralleling our picks above. Also, for a look at the broader market, see our guide to our favorite 3D printers overall.
mix of features, performance, and price
What is the best professional desktop 3D printer?
There are so many different 3D printers on the market today that it can be a real challenge to choose one. When every penny of your quarterly budget counts, you want to make sure your professional 3D printer is adapted to your needs. Material compatibility, build size, ease of use, workflow, software, and many more elements come into play.
To help you cut through the clutter, we made a shortlist of some of the best professional 3D printers available this year. These benchtop and desktop FFF (fused filament fabrication) 3D printers for professionals offer a great combination of features, performance, and reliability, and come from well-established brands. They are ideal tools for rapid prototyping and iterative design processes, and are also suitable for low-volume production series. Keep in mind, though, that while part quality does depend on your printer’s performance, it also greatly relies on your choice of materials.
Towards the end of this article, we also provide a brief buying guide where you can learn more about different 3D printer specifications such as printing temperatures, layer thickness, dual extrusion, and more.
Best benchtop 3D printers for professionals in 2022: our selection
The table below recaps our selection of some of the best professional 3D printing options for office use. Our goal is to provide a quick, visual overview of the market; there are of course numerous other factors to take into account (material compatibility, certifications, customer service, software, etc.) before making the right choice.
Brand | Product | Build size | Country | Price Approximate starting prices based on supplier-provided information and public data. Prices may vary by region, over time and do not include additional products or services (taxes, shipping, accessories, training, installation, …). | |
---|---|---|---|---|---|
Prusa Research | Original Prusa i3 MK3S This product has been reviewed by our team. | 250 × 210 × 210 mm9.84 × 8.27 × 8.27 in | Czech Republic | $ 9991 015 €886 £148,907 ¥ | Buy |
BCN3D Technologies | Sigma D25 | 420 × 300 × 200 mm16. 54 × 11.81 × 7.87 in | Spain | $ 3,9953 495 €3,544 £595,479 ¥ | Quote |
Ultimaker | Ultimaker S5 | 330 × 240 × 300 mm12.99 × 9.45 × 11.81 in | Netherlands | $ 5,9955 495 €5,318 £893,591 ¥ | Quote |
MakerBot | Method X | 190 × 190 × 196 mm7.48 × 7.48 × 7.72 in | United States | $ 6,4996 606 €5,765 £968,715 ¥ | Quote |
Raise3D This brand is a certified partner from our network. | Pro3 Plus This product has been reviewed by our team. | 300 × 300 × 605 mm11.81 × 11.81 × 23.82 in | United States | $ 7,2496 249 €6,430 £1,080,507 ¥ | Quote |
Markforged | Onyx Pro | 320 × 132 × 154 mm12.6 × 5.2 × 6.06 in | United States | $ 9,60010 000 €8,516 £1,430,938 ¥ | Quote |
Stratasys | F120 | 254 × 254 × 254 mm10 × 10 × 10 in | United States | $ 12,00011 000 €10,644 £1,788,672 ¥ | Quote |
Expand to see more specs
The products in the table are ranked by price (low to high).
Brand | Product | Build size | Build volume | Extruder temp. | Country | Price Approximate starting prices based on supplier-provided information and public data. Prices may vary by region, over time and do not include additional products or services (taxes, shipping, accessories, training, installation, …). | |
---|---|---|---|---|---|---|---|
Prusa Research | Original Prusa i3 MK3S This product has been reviewed by our team. | 250 × 210 × 210 mm9.84 × 8.27 × 8.27 in | 11.03 L | 300°C | Czech Republic | $ 9991 015 €886 £148,907 ¥ | Buy on Prusa |
BCN3D Technologies | Sigma D25 | 420 × 300 × 200 mm16.54 × 11.81 × 7.87 in | 25.2 L | 300°C | Spain | $ 3,9953 495 €3,544 £595,479 ¥ | Get a quote |
Ultimaker | Ultimaker S5 | 330 × 240 × 300 mm12.99 × 9.45 × 11.81 in | 23.76 L | 280°C | Netherlands | $ 5,9955 495 €5,318 £893,591 ¥ | Get a quote |
MakerBot | Method X | 190 × 190 × 196 mm7. 48 × 7.48 × 7.72 in | 7.08 L | 260°C | United States | $ 6,4996 606 €5,765 £968,715 ¥ | Get a quote |
Raise3D This brand is a certified partner from our network. | Pro3 Plus This product has been reviewed by our team. | 300 × 300 × 605 mm11.81 × 11.81 × 23.82 in | 54.45 L | 300°C | United States | $ 7,2496 249 €6,430 £1,080,507 ¥ | Get a quote |
Markforged | Onyx Pro | 320 × 132 × 154 mm12.6 × 5.2 × 6.06 in | 6.5 L | – | United States | $ 9,60010 000 €8,516 £1,430,938 ¥ | Get a quote |
Stratasys | F120 | 254 × 254 × 254 mm10 × 10 × 10 in | 16.39 L | – | United States | $ 12,00011 000 €10,644 £1,788,672 ¥ | Get a quote |
Overview of the best professional 3D printers in 2022
In this section, we give some more context and information about each pro 3D printer from our selection.
The Prusa Research Original Prusa i3 MK3S+ is a desktop 3D printer manufactured by Prusa Research, based in the Czech Republic. Prusa Research is a well-known brand created by Josef Prusa, inventor of the open-source Prusa i3 3D printer design.
Prusa 3D printers are highly reliable machines and can produce excellent parts right out of the box. Priced just under $1,000, the MK3S+ offers a very good price-to-performance ratio. With its open chassis and customizable “everything”, it’s a great option for those that like to get manual. Professionals who are looking for easy and low-maintenance operation may want to look at options in a higher price range.
Full review: Original Prusa i3 MK3S review
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The BCN3D Sigma D25 is a large desktop 3D printer for office use made by BCN3D Technologies. BCN3D, or BCN3D Technologies, is based in Spain and is one of the desktop 3D printer market leaders. They produce high-quality 3D printers for professionals, the Sigma being their flagship series.
The Sigma D25 pro 3D printer offers a relatively big build volume and boasts BCN3D’s IDEX technology. This means that there are two separate print heads that can both move independently to either print two identical objects at the same time or print in mirror mode.
Contact manufacturer Get a quote Add to comparison
The Ultimaker S5 is a professional desktop 3D printer made by Ultimaker, a manufacturer based in the Netherlands. Users may control their S5 from a distance thanks to the Ultimaker App and a Wi-Fi connection. There is also an onboard camera to monitor 3D prints from a distance. Furthermore, to maximize production efficiency, it is possible to group multiple S5 3D printers together with Cura Connect.
Today, the Ultimaker S5 is often referred to as the best professional 3D printer, especially when equipped with the Pro Bundle. The Pro Bundle includes a “material station” where up to 6 spools of filament can be loaded and automatically managed (auto-switch, humidity control, etc. ), and an “air manager” that closes up the build area and filters particles.
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The Method X is a professional benchtop 3D printer produced by MakerBot (a Stratasys-owned brand). It was designed to 3D print ABS filament reliably and efficiently, thanks to a number of features– including a 100°C heated build chamber– than enable comprehensive environmental control.
Makerbot’s Method X is equipped with a 5-inch touchscreen with real-time feedback and status on print jobs, and offers automatic calibration. This pro 3D printer also boasts “SmartAssist Material Loading”, for fast and easy filament changing. Users can log in to the manufacturer’s proprietary CloudPrint software to monitor prints remotely at any time.
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The Markforged Onyx Pro is a professional desktop 3D printer made by Markforged, a manufacturer based in Somerville, Massachusetts (USA). With its dual printhead, the Onyx Pro reinforces plastic parts with a continuous strand of fiberglass.
The main available materials for the Onyx Pro are Onyx (a carbon fiber filled nylon) and Precise PLA. Markforged advertises parts up to ten times stronger than non-reinforced plastic ones.
The MarkForged Onyx Pro is delivered with Markforged’s browser-based Eiger software, powerful and easy to use. Eiger allows precise control over the 3D printing process.
Contact manufacturer Get a quote Add to comparison
The Raise3D Pro3 Plus is a professional, industrial-grade 3D printer made by Raise3D, an ISO9001:2015 and ISO14001-certified manufacturer based in the US (California). Raise3D also has offices in the Netherlands (Rotterdam) and in China (Shanghai).
This 3D printer for office environments is a true workhorse, capable of printing for hours without any hiccups. It does an impressive job with complex overhangs and features an intuitive, user-friendly workflow. The printer comes with an air filtration system, an onboard camera, and a dual extruder. Its control software is also available as a smartphone app for convenient remote monitoring.
Raise3D’s Pro3 series also includes the Pro3, featuring a smaller build volume. Both printers are a follow-up to the Pro2 Series.
Full review: Raise3D Pro3 Plus review
Contact manufacturer Get a quote Add to comparison
Stratasys is the Apple of the 3D printing industry. Their 3D printers, including the F120, are reliable machines with industrial-grade components and printing quality. However, Stratasys 3D printers generally only work with Stratasys materials and hardware. At the moment, less than a handful of filaments are available for the Stratasys F120.
The F120 is one of the most affordable FDM printers from Stratasys and is destined to be a desktop workhorse for professionals. Stratasys emphasizes on the printer’s ease of use, durability, and industrial quality.
Contact manufacturer Get a quote Add to comparison
Professional 3D printer buying guide
There are several features and specifications to take into account when choosing the best professional 3D printer for your needs.
Technology
For this professional desktop 3D printer selection, we focused on FFF (fused filament fabrication) 3D printers. They are ideal for creating both prototypes and end-use parts.
For professionals in dental or jewelry industries where high precision and detail are required, resin 3D printers are more adapted, with SLA, DLP, or LCD-based technologies.
There are also desktop SLS 3D printers (powder 3D printers), PEEK 3D printers, continuous fiber 3D printers, and more for advanced applications. Explore these topics with all of our other 3D printer guides.
Build plate or print bed
A heated print bed is mandatory for users that need to 3D print with ABS and other more demanding materials. The heat helps prevent warping and offers better first-layer adhesion.
While today’s 3D printers almost always feature heated build plates, they don’t all reach the same temperatures. It is best to know which thermoplastics you will be printing and to choose your desktop 3D printer accordingly.
Some professional 3D printers have interchangeable build trays to help speed up the workflow, enabling users to quickly launch new prints while the previous build plate cools down. On higher-end 3D printers, there can even be vacuum systems for instant part release from the print bed.
Print head
PLA and ABS can be considered the most common and basic 3D printing materials in general. Professionals, however, often need to print more complex materials, such as Nylon, Polycarbonate, PETG, ASA, or other engineering-grade polymers.
They don’t all have the same melting or glass transition temperature and therefore have to be 3D printed at different temperatures. For example, PLA can be extruded at around 200°C, PC at around 260°C, and some high-performance materials like PEEK or PEKK need the extruder to reach at least 450°C.
Popular professional filaments also include plastics filled with carbon fiber or glass fiber for increased strength and resistance. These materials are abrasive and require tough nozzles; many professional printers are already compatible with these composites, but it’s important to make sure beforehand.
Some 3D printers are compatible with multiple types of nozzles with varying diameters, and even paste-type print heads exist to 3D print clay.
Automatic calibration
Most professional 3D printer systems are equipped with automatic calibration features to make the process as plug-n-play as possible. It’s important to recalibrate a 3D printer from time to time to ensure consistent print quality.
There are two main types of calibration:
- Print bed leveling (making sure the print bed is perfectly parallel to the nozzle, and not tilted)
- Nozzle offset (determining the right gap between the nozzle and the print bed)
Most 3D printers for professionals feature a probe attached to the print head to automate these processes instead of users having to use a piece of paper or business card.
Some 3D printers also have NFC readers to automatically adjust their temperature settings according to the detected material (so long as the spool is chipped, too).
Dual extrusion and independent dual extrusion (IDEX)
A dual extruder enables users to 3D print with two different colors or materials simultaneously, including soluble support material for complex objects.
If there are two separate print heads, the system is referred to as IDEX (independent dual extruder). BCN3D Technologies was one of the first manufacturers to offer this feature a few years back.
In addition to being able to 3D print two materials at a time, independent dual extrusion offers different 3D printing possibilities:
- Duplication mode: 3D prints two identical objects at the same time.
- Mirror mode: to 3D print an object twice as fast as with just one extruder, each nozzle completes one-half of the object.
Onboard camera
Some 3D printers are equipped with an onboard camera that monitors prints remotely or saves time-lapse videos. This feature can be useful if the printer must be left unattended for long periods of time. We found it to be quite practical when we launched a long print for our Pro3 Plus review.
With the right 3D software, onboard cameras can help with quality control. Quality control can also be done during post-processing workflows with a metrology 3D scanner.
Minimum layer thickness
3D print quality is intricately linked to layer thickness, a.k.a. layer height or Z resolution. It’s the minimum height of each successive layer that forms the 3D printed object. The thinner the layers, the less they are distinguishable and the smoother the object will be (similar to the ratio of pixels in an image).
Thinner layers also mean that more layers are required to complete the object, which translates into more 3D print time. Layer thickness can be adjusted depending on if you need a quick print (thicker) or a high-resolution print (thinner).
The typical minimum layer thickness for mid-range FFF 3D printers is 100 microns or 0.1 millimeters, but it can go down to 0.01 mm in some cases.
A simple representation of layer height. Source: Primantes3DBuild volume
The build volume is the maximum size that your prints can be. If you need a bigger volume than what the 3D printers in this guide provide, you may be interested in these selections:
- L: Large volume 3D printers
- XL: Large format 3D printers
- XXL: Large scale 3D printers
Now, there are even large-sized resin 3D printers for those that need both volume and finer surface quality.
Closed frame
Many variables can interfere with 3D print quality, such as temperature changes and room drafts. Hence, 3D printers with an enclosed build chamber tend to provide better quality prints, in addition to reducing noise, odors, and– with a HEPA filter– harmful particle emissions.
A closed frame is almost mandatory when 3D printing with basically anything other than PLA. Today it is quite rare to see a professional 3D printer without an enclosure.
FAQ
Are 3D printers safe?
With basic precaution, 3D printers are relatively safe to use, although there has been some concern over harmful particle emissions from the melted filament. It’s best to use closed 3D printers with filters and to use 3D printers in well-ventilated areas. Users should also be careful not to burn themselves on a hot build plate or extruder; some 3D printers feature door safety sensors to lock the printer while it is printing.
Can 3D printers print metal? What 3D printers can print metal?
Yes, some FFF 3D printers are able to print metal-filled filaments. This is called metal FFF. Once the part has been 3D printed, however, it must undergo two processes called debinding and sintering. Other types of 3D printers (much more expensive and industrial-grade) are able to 3D print metal powder using various metal 3D printing technologies like L-PBF (laser powder bed fusion) or metal binder jetting, among others.
What is the best 3D printer for jewelry?
For jewelry, resin 3D printers are more adapted than FFF 3D printers. They use SLA, DLP, or LCD-based technologies to produce objects with fine details and smooth surfaces.
Can 3D printers print in color?
Yes, some 3D printers can print in color. They are called full-color 3D printers and often use powder-based technologies. Systems that mix CMYK filaments exist, but cannot reproduce photorealistic colors like powder-based 3D printers.
Review of popular brands of professional 3D printers-2
The impressive results of 3D printing have turned this technology into a highly demanded process. A separate category is professional 3D printers - machines that are involved in research, the implementation of production projects, and the embodiment of entrepreneurial ideas. These devices are characterized by stability - they can print hundreds of copies of one item, which will turn out to be absolutely identical.
Overview of professional 3D printers
Such models are significantly different from similar desktop machines, demonstrating decent performance: performance, quality, print accuracy, compatibility with a wide range of materials. When choosing professional 3D printers according to their characteristics, it is necessary to take into account the peculiarities of the equipment of each supplier.
3DSystems
The concern is the largest manufacturer of 3D devices in the US and Europe. The brand produces professional 3D printers that work with plaster, photopolymers, metals, plastics or wax. The equipment is distinguished by high performance, accuracy of compliance with the parameters. The brand's equipment is useful in various fields: medicine, the aerospace sector, mechanical engineering. They are actively used in business projects and research environment.
Models in demand:
• Figure 4 Standalone is a high-speed printer for rapid prototyping and small series production. The versatile device "lines" high quality parts for industrial-grade performance. The equipment reduces costs and allows you to get detailed products. An additional plus is the ease of changing materials and an optimized post-processing system that allows you to diversify conceptual modeling.
Photo: 3DSystem
• Figure 4 Jewelry is an ultra-fast solution for jewelry production. The device creates unusual decorations with a unique design. The device provides a high-quality resulting surface, and an ideal resolution. Membrane contactless printing, customized software and MicroPoint support structures enable the production of miniature parts or the development of signature print styles.
Photo: 3DSystem
• Figure 4 Modular – Mass production equipment with the potential to scale. The basic configuration of the printer and controller can be expanded to 24 modules in a single production line. The machine is distinguished by high productivity, compatibility with a wide range of materials, the ability to respond to production volumes. Built-in 3D Sprint software helps you edit objects and generates work statistics.
Photo: 3DSystem
• Figure 4 Production is an industrial grade machine with an end-to-end digital workflow. The modular system allows you to expand production volumes, increase factory capacity. Additive technology Figure 4 combines the part construction procedure with auxiliary technological processes, "grows" objects from a variety of compositions, including biocompatible or hybrid ones. Automatic support placement and optimized software make it easy to set up jobs and manage operations.
Photo: 3DSystem
• The ProJet MJP 2500W is a budget machine with decent performance. The machine adapts to the workflow and is able to produce small batches of products per day or print one large part of a complex configuration. The technique provides printing of products in high resolution, with smooth surfaces and sharp edges. Built-in management tools make it possible to regulate the consumption of raw materials.
Photo: 3DSystem
• ProJet MJP 3600 - equipment for detailed prototyping, production of master models, burnout elements. The technique produces objects that are in demand during assembly testing or functional testing. The technology used provides accurate detailing of printed objects, the ability to build thin-walled samples with the smallest components. Original materials make it possible to produce models with varying mechanical characteristics.
Photo: 3DSystem
• The ProJet MJP 2500IC is one of the brand's latest developments. The modification is designed to produce strong wax parts while maintaining the quality and high resolution of products, but with greater speed and availability of materials. The device is able to work around the clock, which ensures its quick payback and profitability.
Photo: 3DSystem
• The ProJet MJP 2500Plus is an advanced machine from the ProJet MJP line that prints with high precision and detail. The device surpasses desktop models in performance, does not require specific management skills, and is distinguished by clear navigation and synchronization with a computer. Compatible with a wide range of consumables.
Photo: 3DSystem
Nexa3D
The company is known for its breakthrough projects. The brand regularly presents new products that overtake similar devices in one way or another. Fast machines, unique resolution modifications, upgraded software, safe cartridge changing system - the Nexa3D team always surprises users.
The brand's most popular 3D printer, the Nexa3D NXE400, is an ultra-fast, industrial grade printer available to organizations of all sizes. The impressive size of the working chamber makes it possible to build one large or several small models during the production cycle. The modular structure facilitates replacement of components and modifications. Finished parts are of the same quality as industry standards. Nexa3D technology provides high speed without sacrificing accuracy.
Photo: NEXA3D
Sinterit
The Polish manufacturer offers appliances in the middle price segment. The basic direction of the company's work is the design and creation of 3D equipment operating according to the method of selective laser sintering of the corresponding consumables. The company's scientists correct shortcomings typical for 3D printers, add new options, and come up with a unique design. The brand's equipment is the most affordable solution for obtaining accurate prints without traditional restrictions.
Main models of 3D printers:
• Sinterit LISA is an affordable professional SLS machine capable of building multiple objects in one print cycle without the use of a support system. Manufactured specimens are immediately ready for use after cleaning. The device is compatible with various types of CAD files and has an intuitive interface. The equipment is suitable for small production lines.
Photo: Sinterit
• Sinterit LISA PRO is an upgraded version of the previous unit, the best option among desktop printers in this category. Equipped with a more capacious build chamber and a built-in system for supplying inert gas to the working compartment. This is a reliable, easy-to-use machine that produces quality parts.
Photo: Sinterit
Sintratec
The company is a leading Swiss supplier of premium solutions for additive manufacturing. The company develops SLS printers and consumables for them. Proprietary materials and technologies provide impeccable printing accuracy, the ability to build an object of an extraordinary configuration. Users rated the following 3D printers:
• The SINTRATEC KIT is the perfect solution for functional prototypes. The machine can be integrated into an existing production line. The technique is easy to use and produces samples with complex geometry used in mechanical engineering, research, and medicine. The equipment is compatible with a wide range of polymers, producing durable, heat-resistant products with good detail. The device was designed as a desktop, so it has the appropriate dimensions and design.
Photo: Sintratec
• The SINTRATEC S2 is a professional device with a scalable structure. The modular design is able to expand, adapt in accordance with the growth of production volumes. The advanced technique offers enhanced prototyping possibilities. The unique semi-automatic system integrates raw material preparation, printing and post-processing into a single closed cycle.
Photo: Sintratec
TOTAL Z
The company is a leading domestic manufacturer of 3D equipment that provides professional design and manufacture of additive equipment for industrial use using FDM/FFF technology. The brand's technique solves diverse tasks associated with the development and production of serial samples, prototypes, elements with the smallest details. The company pays a lot of attention to the accuracy of recreating objects, mechanical characteristics, durability, safety. Our own line of materials has been developed based on the results of scientific research and the latest statistics.
Users purchase the following equipment:
• TOTAL Z Anyform 250-G3/G3(2X) - versatile compact equipment for industrial scale. The extruder's modular structure, rigid frame design, closed build chamber, unique control board, and user-friendly interface ensure highly efficient production and convenient machine maintenance. The absence of restrictions in materials allows the use of filaments from various manufacturers.
Photo: TOTAL Z
• TOTAL Z Anyform XL250-G3/G3(2X) is a 3D printer that works with one or two extruders that can be configured for different materials. The heated bed makes it possible to print with elastic or rigid polymers. To process files with 3D models, special software with patented settings is used. The equipment is compatible with different types of plastics and the user is not limited in choice. The model greatly simplifies the process of experimental development.
Photo: TOTAL Z
• The TOTAL Z Anyform 1000-LPRO is a high performance device for ultra-fast printing and large object fabrication. An impressive working chamber, a uniformly heated table ensure the printing of products with exact observance of the parameters. The closed build box allows you to safely work with a wide range of engineering plastics.
Photo: TOTAL Z
Builder
The manufacturer supplies machines designed for the manufacture of really large objects - advertising stands, exhibition displays, full-size models of a person, functional elements of cars. The Dutch company has become known for its interesting technological developments in the field of FDM printing. Modifications are popular in the brand line:
• Builder Extreme 1000 PRO is a universal device that combines the advantages of desktop and industrial devices. The large-sized unit is suitable for printing large-scale prototypes, large tools and layouts. The broken filament detection system and the option to resume operation after a power failure are responsible for the smooth operation and efficiency of the equipment. The unit is able to turn any creative idea into a real object, rationally spending resources.
Photo: Builder
• The Builder Extreme 1500 PRO is a widescreen device configured for the office. Built-in wheels make the equipment mobile, and a capacious working chamber involves the construction of large-scale industrial facilities, impressive prototypes, architectural models, and interior items. The model is considered the most reliable in its class. In the event of a power outage, the equipment resumes functioning immediately after it is turned on.
Photo: Builder
• The Builder Extreme 2000 Pro is the world's largest wide-format machine, packed with the tools to print large-scale projects with ease. The 7-inch touch screen helps you control the build process, nozzle temperature, set the backlight, and change the filament. The dual feed extruder can grow two color patterns but is also capable of functioning as a mono extruder. Despite its large construction area, the machine does not require special conditions for placement, it is suitable for standard workplaces.
Photo: Builder
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Tags:
Professional 3D printers, 3DSYSTEMS, FIGURE 4 StANDALONE, FAST Prototyping, FIGURE 4 Jewelry, Projet MJP 2500W, 3D PRICE NXE3D PRICE technologies, Sinterit LISA, SINTRATEC KIT, TOTAL Z, TOTAL Z Anyform 250-G3/G3
Overview of professional 3D printers from 3D Systems
3D Systems is a generator of innovative solutions in the field of 3D printing. Professional 3D printers, resources used and extraordinary services for the manufacture of original elements are the main reasons for the firm's popularity. The brand's cutting-edge offerings are gradually replacing classical production methods, reducing the time of creation and the cost of objects, ensuring the construction of realistic layouts based on available computer data.
DLP and MJP Technologies - Cutting Edge
Digital Light Printing (DLP) is a variation of stereolithographic 3D printing used extensively in mass additive manufacturing. An alternative technique uses devices that project the pattern of the entire layer until the polymer resin cures. Then another level of the consumable resource is distributed and the image of the next row of the digital model is projected.
DLP printing was not invented very long ago, but the technology has already demonstrated excellent results, comparable in quality and efficiency to the original SLA laser stereolithography method.
The equipment is characterized by impressive accuracy. The minimum layer thickness is 15 micrometers. Resolution is inversely related to the speed of construction. That is, the method allows to achieve greater accuracy by reducing the layer thickness. Photo-curable resins have a wide range of mechanical properties.
The advantage of the innovation is the low price of projectors compared to laser emitters. DLP equipment is being introduced in the dental field, jewelry, and in the manufacture of souvenirs.
Multi Jet Printing (MJP) is a technology based on inkjet printing using a photopolymer or wax material. The print head with an array of miniature holes placed in rows moves over the work surface along a predetermined trajectory and applies a layer of liquid raw material. Further, the UV lamp illuminates the polymer particles, due to which the composition hardens. Quickly dissolving wax serves as a support for overhanging parts of the molded product. After the printing is completed, the supporting structures are smelted in a special furnace. The method allows you to build models with glossy walls and the highest detail. Prototyping from small droplets of molten photopolymer makes it possible to achieve precision beyond the reach of conventional 3D printers.
Demanded 3D printers for professional use
3D Systems has released a variety of 3D equipment that works with different types of materials. The following DLP models are popular:
Figure 4 Standalone - machine for rapid prototyping and small-scale production. Works at high speed and is optimized for implementation in jewelry casting production processes. The device is able to function 24/7, can simultaneously print multiple copies. Automatic generation of supports and placement of elements on the working platform. The development of 3D SYSTEMS is designed to produce hundreds of samples per month.
Figure 4 Modular is designed for the growing industry. It allows for variable part volumes and is compatible with a wide range of liquid polymers. The modular design offers expandable capacity, automated control, and centralized post-processing capability. Fundamentally important advantages: low cost of operations, modular scalability and high performance.
- Figure 4 Production is a continuous digital workflow designed for assembly lines. Releases items much faster than similar systems. Benefits: The software makes the setup process clearer, nesting is possible, there are built-in editing tools and automatic support.
Of the MJP models,
Projet MJP 2500W is especially in demand - a solution appreciated by jewelers. The equipment provides high performance and the required resolution. The device is used for operational prototyping by the method of metal casting, it is easily introduced into the manufacture of final-purpose parts, including exclusive design. The technology is characterized by low operating costs. Finished 100% wax cast models are compatible with standard casting techniques.
The ProJet MJP 2500IC is an innovative printer that produces highly detailed large wax objects. The machine guarantees super-speed of construction and provides a reduction in the cost of the finished product. The technology used helps to reproduce the specified print resolution. The latest professional unit delivers up to 10 times more productivity than comparable equipment.
The ProJet MJP 3600 is a multifunctional machine for making master models, precision prototyping and producing burnout prototypes. The technique is actively used in the medical field, design and architecture, in various sectors of industry. The unit is distinguished by structural reliability. Photopolymer materials are used to build three-dimensional objects. It is possible to implement objects with complex geometry using wax supports, which are easily removed during thermal exposure.
Conclusion
3D equipment is designed for specific industries. The main qualities of a professional 3D printer - high speed, meticulous detailing and a given wall thickness - are in demand in medicine, science and education, design and architecture.