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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.

Original Prusa Mini

Best Overall Budget 3D Printer

4.5 Outstanding

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

Sold By	List Price	Price
Prusa Research	$399.00	$399.00	See It (Opens in a new window)

Read Our Original Prusa Mini Review

XYZprinting da Vinci Mini

Best Budget 3D Printer for Schools, Community Centers

4.0 Excellent

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.

Sold By	List Price	Price
Walmart	$199.95	$199.95	See It (Opens in a new window)
Amazon	$199.95	$199.95	See It (Opens in a new window)

Read Our XYZprinting da Vinci Mini Review

Toybox 3D Printer

Best Budget 3D Printer for Children

4.0 Excellent

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

Sold By	List Price	Price
Amazon	$299.00	$299.00	See It (Opens in a new window)
Toybox Labs	$379.00	$299.00	See It (Opens in a new window)

Read Our Toybox 3D Printer Review

Monoprice Mini Delta V2 3D Printer

Best Budget 3D Printer for Beginners, Non-Techies

4.0 Excellent

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

Sold By	List Price	Price
Amazon	$323.98	$323.98	See It (Opens in a new window)

Read Our Monoprice Mini Delta V2 3D Printer Review

Anycubic i3 Mega S

Best Budget 3D Printer With an Open Design, Big Build Area

3.5 Good

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

Sold By	List Price	Price
Amazon	$229. 98	$229.98	Check Stock (Opens in a new window)
AnyCubic	$279.00	$279.00	Check Stock (Opens in a new window)

Read Our Anycubic i3 Mega S Review

Anycubic Vyper

Best Budget 3D Printer for the Biggest Build Area Possible

3.5 Good

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

Sold By	List Price	Price
Amazon	$429. 99	$429.99	See It (Opens in a new window)
AnyCubic	$369.00	$319.00	See It (Opens in a new window)

Read Our Anycubic Vyper Review

Creality Ender-3 V2

Best Budget 3D Printer for Tinkerers and DIY Types

3.5 Good

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

Sold By	List Price	Price
Amazon	$299. 00	$246.00	See It (Opens in a new window)

Read Our Creality Ender-3 V2 Review

Flashforge Finder 3D Printer

Best 3D Printer for the Very Tightest Budgets

3.5 Good

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).

Sold By	List Price	Price
Amazon	$729.00	$729.00	Check Stock (Opens in a new window)

Read Our Flashforge Finder 3D Printer Review

Polaroid PlaySmart 3D Printer

Best Budget 3D Printer for Dabbling in Small Objects

3. 5 Good

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.

Sold By	List Price	Price
Amazon	$699.00	$699.00	See It (Opens in a new window)

Read Our Polaroid PlaySmart 3D Printer Review

XYZprinting da Vinci Jr. 1.0 A Pro

Best Budget 3D Printer With Closed Design, Roomy Build Area

3. 5 Good

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

Sold By	List Price	Price
Amazon	$299.95	$199.95	See It (Opens in a new window)
Best Buy	$449.95	$449.95	Check Stock (Opens in a new window)

Read Our XYZprinting da Vinci Jr. 1.0 A Pro Review

Monoprice Voxel 3D Printer

Best Budget 3D Printer for Cheap Filament

3. 0 Average

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.

Sold By	List Price	Price
Amazon	$449.99	$369.26	See It (Opens in a new window)
Walmart	$429.99	$369.26	See It (Opens in a new window)

Read Our Monoprice Voxel 3D Printer Review

Buying Guide: The Best Cheap 3D Printers for 2022

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.

Prusa MK3S+ 3D Printer Review: The Heavyweight Champ Continues to Dominate

Tom's Hardware Verdict

The Prusa MK3S+ continues to hold its own in a market saturated with low-cost competitors.

Pros

+
+ PrusaSlicer provides best-in-class model slicing
+
+ Flexible build platform sets the standard
+
+ Automatic bed leveling
+
+ Stealth Mode enables a nearly silent printing experience

Why you can trust Tom's Hardware Our expert reviewers spend hours testing and comparing products and services so you can choose the best for you. Find out more about how we test.

There are few 3D printers with as many industry accolades as the Prusa i3 MK3S+, and after spending some time with this printer, it’s easy to see why it’s one of the best 3D printers currently on the market. With a price tag of $999 for an assembled machine or $750 for a DIY kit, the price point of the MK3S+ is towards the high end for an open format consumer 3D printer, but the features of this machine and the ecosystem created by Prusa (they make their own hardware, software, filament, and more) have made the MK3S+ a formidable machine for anyone interested in taking their 3D printing game to the next level.

The features of the MK3S+ (silent stepper drivers, power-panic, etc.), noteworthy when originally launched, have largely become standard on lower-cost machines and may not seem particularly impressive on a spec sheet. However, clever software implementation and well-written documentation have created a machine that provides a best-in-class printing experience. For instance, the auto-leveling SuperPINDA probe of the MK3S+ maps the build platform for surface distortions, but the printer firmware is capable of storing multiple Z-offsets so you can switch build platforms without having to recalibrate every time.

The MK3S+ is a visually distinct machine; and the Prusa team has kept their black and orange color scheme for their smaller printer, the Prusa Mini+. The bright orange printed parts on the MK3S+ have created instant brand-recognition for the Prusa line of printers, and Prusa has doubled down on this by reinforcing their branding across their machine. In fact, you can find the word ‘Prusa’ printed, engraved, or etched into the MK3S+ in 25 places, 29 if you’re using a spool of their Prusa Polymers Prusament PLA material.

Specifications

Swipe to scroll horizontally

Machine Footprint	16.5 x 16.5 x 15 inches (42.0cm x 42.0cm x 38.0cm)
Build Volume	9.84 x 8.3 x 8.3 inches (250mm x 210mm x 210mm)
Material	1.75mm PLA, ABS, ASA, PETG
Extruder Type	Direct Drive
Nozzle	.4mm
Build Platform	Magnetic Heatbed with removable PEI spring steel sheets
Power Supply	240 Watts
Connectivity	USB, SD Card
Interface	3.4-inch Mono LCD and click wheel
Filament Run-Out Sensor	Yes

Included with Prusa MK3S+

The fully assembled Prusa MK3S+ ships with all of the accessories required to make your first print, and also includes enough spare parts to replace almost every fastener on the machine. The fully assembled MK3S+ also includes a bag of Haribo Goldbears, a signature addition from the Prusa team.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

The Prusa MK3S+ includes a full spool of silver PLA material, screwdriver, a metal part scraper, a glue stick (for adhesion), an isopropyl alcohol wipe, lubricant for the linear rails, power and USB cables, a sheet of stickers, a printed handbook, and a diagnostic printout that confirms the functionality of the mechanical and electrical systems.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

The usefulness of the handbook is hard to overstate. When you’re starting out with your first 3D printer, it can be difficult to pinpoint the cause of problems such as loss-of-extrusion, poor layer adhesion, or a clogged extruder. The included handbook is full of detailed photographs, troubleshooting workflows, and solutions to common problems. This is an invaluable resource for beginners, amateurs, and experts alike, and it’s clear to me that Prusa has set the standard for technical documentation.

Setting up the Prusa MK3S+

(Image credit: Tom's Hardware)

The Prusa MK3S+ ships with a completed print attached to the build platform. This print features a serpentine line with 90 degree angles, curves, and a solid block in the center with the Prusa logo facing upwards. This print serves to confirm that the printer is functional and has been properly assembled and calibrated. I was able to easily remove the print from the build platform by bending the steel sheet and carefully removing it.

(Image credit: Tom's Hardware)

After powering on, the printer automatically runs through an initial setup process. This process involves calibrating the Z axis by running it all the way to the top of the printer, running the mesh bed leveling process to set the Z offsets, and loading the filament. This entire process only took me a few minutes, and the high level of automation involved means that the only thing I needed to do was insert the filament into the extruder after it had heated up.

(Image credit: Tom's Hardware)

You might be surprised to find that the Prusa MK3S+ is based on the RepRap i3 (third iteration) frame, originally released in September of 2012. Despite this nearly decade-old release date, the MK3S+ is full of modern advancements and enough innovative features to still be a top contender in the prosumer 3D printer market.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

The bright orange color makes the 3D printed parts on the MK3S+ easy to spot. The brackets mounted to the printer are printed in-house by Prusa using their own Prusament PETG filament. These brackets are robust and sturdy, and the uniform appearance between the printed parts give the printer a professional appearance. This version of the MK3S+ shipped with orange printed brackets, but the printer is also available in an all-black variant. A large selling point of the MK3S+ is the open-source nature of the machine, which means the printed parts are all available to download if you want to download, modify, or print them out yourself.

(Image credit: Tom's Hardware)

The monochrome LCD interface and click-wheel on the MK3S+ is one of the few less-than-impressive features on this machine; it feels dated and the UI navigation can be a little clunky. This stands in contrast with printers like the Anycubic Vyper, a sub-$400 machine that features a bright and responsive color touchscreen that shows detailed print statistics during printing. This monochrome display was industry standard when the original 8-bit i3-style of printers was introduced, but it feels outdated when compared to recent printers with color touchscreens.

(Image credit: Tom's Hardware)

The MK3S+ uses a filament spool holder that mounts directly to the frame of the printer. The T-shaped holder is able to hold two spools simultaneously, which is ideal if you plan on swapping between multiple colors to produce a multicolor 3D print. The direct-drive extruder on the MK3S+ feeds filament straight down into the hot end, so mounting the filament directly above the extruder gives the filament a straight path between the spool and the extruder.

(Image credit: Tom's Hardware)

At the heart of the MK3S+ is the 8-bit Einsy RAMBo board, housed in a 3D printed enclosure mounted to the frame of the machine. This board is equipped with Trinamic 2130 silent stepper drivers, user-replaceable fuses, and the cable management is clean and professional.

The features made possible by this board (power-panic, live-Z adjust, silent steppers) were all major leaps when originally introduced, but many of these features have made their way down to less expensive FDM 3D printers like the Elegoo Neptune 2. The interface feels sorely in need of an update, and the addition of a color touchscreen and a 32-bit board (such as the one equipped on the Prusa Mini+) would refresh this platform.

(Image credit: Tom's Hardware)

The attention to detail on the Prusa MK3S+ is clear, and a perfect example of this is the wire management across the machine. Current-carrying wires are attached to the extruder module with zip ties that act as a strain-relief to prevent the wires from fatiguing and separating. The wires from the power supply are tucked neatly under the frame of the machine, out of sight and reach from users to prevent accidentally unplugging them during printing.

What Makes the Prusa MK3S+ Different?

It can be hard to understand why the Prusa MK3S+ costs so much more than a printer like the Creality Ender 3 Pro, which seems to have similar specs on paper. To understand why this machine is so much more expensive, we need to take a closer look at the individual components of the MK3S+.

(Image credit: Tom's Hardware)

Critical to the success of the MK3S+ is its custom-made Delta 240 Watt power supply, mounted to the frame of the machine. This unit supplies 24V power to the bed with a max current of 10 Amps, which provides fast and reliable heating for printing high temperature materials like PETG and ASA. Less expensive machines typically use lower wattage power supplies, such as the 150W power supply used by the Flashforge Adventurer 3 Lite, which take longer to heat and can have difficulty maintaining a higher temperature.

(Image credit: Tom's Hardware)

The 24V heated bed is able to reliably hit 100C, which is more than enough to allow high temperature materials like PETG and ASA to adhere to the build platform without delaminating. The magnetic build platform is firmly held in place without any clips or latches and can easily be removed once it cools to room temperature. PETG in particular is easy to remove from the textured surface of the textured spring steel sheet, and the MK3S+ build platform is best-in-class for high-temperature adhesion.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

The MK3S+ is equipped with a genuine E3D hot end, and it has the holographic sticker to prove it (seriously). E3D manufactures every component in the hot end from the nozzle to the heatbreak which means you are very unlikely to run into the type of manufacturing defects that occasionally pop up on less expensive printers (incorrectly drilled nozzles, degraded PTFE tube liner, etc. ) In addition, this nozzle is rated for a max temperature of 300C (572F), which is easily hot enough to extrude most common thermoplastics and even some higher-temperature engineering-grade materials like Nylon and Polycarbonate.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

The printed parts on the MK3S+ are a perfect example of a company applying its in-depth knowledge of a subject to its product. The printed brackets found on the MK3S+ have been printed in PETG, and the outward-facing textured surface shows the level of quality you can expect from using a textured sheet.

In addition, I appreciate that Prusa has applied DFAM (Design for Additive Manufacturing) principles to these parts. These DFAM principles include concepts like printing hexagons instead of circles for relief holes, which print without requiring support material, and printing brackets perpendicular to their intended load to create mechanically tough parts.

(Image credit: Tom's Hardware)

The Prusa MK3S+ comes equipped with a SuperPINDA probe which is used for hands-free leveling of the build platform. The SuperPINDA (which stands for Super Prusa INDuction Autoleveling sensor) operates by detecting the proximity of the probe to the build platform and storing that information in firmware. The MK3S+ isn’t the first printer to use a probe for bed leveling, but the software implementation in PrusaSlicer means that after the printer has been set up, you can print without spending much time thinking about calibration.

(Image credit: Tom's Hardware)

Compared to the manual bed leveling process of a printer like the Creality Ender 3 Pro, the MK3S+ is faster, easier to use, and requires less trial and error. PrusaSlicer includes a “G80” command in the start G-code (the instructions the printer reads when making a part), and this command performs a ‘Mesh Bed Leveling’ which probes the bed in a 3x3 grid to create a mesh surface that is used for calibration. This mesh surface causes the Z-axis motors to undulate over uneven areas while the print head remains perpendicular in the X/Y axis. During my testing, I didn’t need to run a single non-print calibration on the printer after the initial mesh bed leveling.

Build Platforms on Prusa MK3S+

(Image credit: Tom's Hardware)

Removing a printed part from the build platform of a 3D printer can be a challenging experience if the printer isn’t calibrated correctly. The Prusa MK3S+ attempts to solve this problem by using a removable build platform that is held in place magnetically and can be flexed to remove parts after the platform has cooled. I’ve tried many different types of build surfaces, and the smooth PEI sheet used by Prusa is by far one of the easiest to print on, remove parts from, and clean.

(Image credit: Tom's Hardware)

Prusa also offers a textured steel build platform for the MK3S+ that has a gritty surface which can give printed parts a more uniform appearance. In fact, the signature textured look of the printed parts on the MK3S+ come from this build platform.

Parts printed on a smooth build platform will have a smooth bottom surface, which looks visually distinct from the striations on the sides of the part. By using a textured sheet, I was able to make prints that have a textured appearance on the bottom as well as the sides. This sheet is ideal for printing with PETG; the high print temperature of the material requires a textured surface to stick to, but also needs a surface that it can easily detach from.

Printing on the Prusa MK3S+

(Image credit: Tom's Hardware)

The sample prints on the included SD card with the Prusa MK3S+ are a refreshing change from the sample parts that are typically included with low-cost 3D printers. The MK3S+ includes 16 pre-sliced parts that have been prepared for PLA with the total print time included in the file name. The sample prints vary in time from 23 minutes (a simple block with the word PRUSA on it) to almost 14 hours (a castle printed at .1mm layer height), and have all been prepared using sensible settings for the machine and highlight various features (variable layer height, multicolor printing, and fine .1mm layer resolution).

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

One of my favorite sample parts is the planetary gear bearing that prints in a single print. I printed this model using the Prusament Jet Black PLA material, and after removing it from the build platform I was able to easily spin the gear freely. This part really highlights the ability of the MK3S+ to produce parts with functional strength and purpose in addition to parts designed with aesthetics in mind.

(Image credit: Tom's Hardware)

Another stand-out sample print included with the MK3S+ is the dragon model titled Adalinda the Singing Serpent by Loubie3D. This model takes a little longer to print (about 8 hours), but the final print is another favorite of mine. Because this model was sliced by Prusa for the MK3S+ printer, the sample print comes out with a high level of detail and no unexpected settings that can cause problems (too many exterior shells, no retraction, etc. ) like the sample prints included with other FDM 3D printers.

(Image credit: Tom's Hardware)

Printing with PrusaSlicer on the Prusa MK3S+

(Image credit: Prusa)

Prusa has developed its own in-house slicer for the Prusa MK3S+, called PrusaSlicer. PrusaSlicer is a fork of the confusing-to-pronounce Slic3r app, which is also a free and open-source app. Prusa has invested a considerable amount of time and effort in PrusaSlicer, and this has translated into one of the most powerful 3D printing slicer apps available for desktop 3D printers on the market.

(Image credit: Prusa)

The current version of PrusaSlicer (2.3.3) includes profiles for printers by Prusa, Creality, Lulzbot, and more, and also includes a library of material profiles. In addition to these profiles, PrusaSlicer also includes multiple print setting profiles, which range from ultra-high detail at 0.05mm layer height to a draft mode which offers .3mm layers fast print speed at the expense of reduced quality.

Slicing Models in PrusaSlicer for the Prusa MK3S+

(Image credit: Prusa)

PrusaSlicer is a feature-rich program with a simplified interface that is accessible to beginners, experts, and everyone in between. I’ve spent a lot of time in the PrusaSlicer settings, and I appreciate how much work Prusa has put into making almost every parameter of the printing process addressable without creating an overwhelming interface.

The settings are broken down into three primary categories: Print Settings, Filament Settings, and Printer Settings. Print Settings generally focuses on the speed / quality of the print, Filament Settings is used to determine temperature and extrusion parameters, and Printer Settings is used for global parameters and determining start / stop instructions.

(Image credit: Prusa)

The primary interface offers three settings: Simple, Advanced, and Expert. Simple offers a stripped-down experience with only a few parameters able to be adjusted, while Advanced and Expert allow you to adjust the print on a more granular level.

PrusaSlicer Quality Settings for the Prusa MK3S+ / PLA

(Image credit: Prusa)

Swipe to scroll horizontally

Material	Prusa Basic PLA, Silver
Layer Height	0.20 mm
Infill Percentage	15%, Gyroid
Print Speed	45mm/second
Extruder Temperature	215 degrees Celsius (419 degrees Fahrenheit)
Heated Bed Temp	60 degrees Celsius (140 degrees Fahrenheit)
Print Time	1 Hour, 34 Minutes

(Image credit: Tom's Hardware)

There are few prints that are better at testing out a printer than the 3DBenchy, so I used the included spool of silver Prusa PLA to print this model out using the default . 2mm Quality PrusaSlicer settings. I was impressed with the overall quality of the Benchy, and even with a highly-reflective material like a silver PLA which can highlight defects from uneven layers, the layers looked even and consistent throughout.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

The Benchy boat model is designed to highlight various features of a printer (such as the ability to print steep overhangs, small features, etc.), and a quick examination of the model shows that the MK3S+ performed very well and didn’t have any of the common defects typically seen on this model.

PrusaSlicer Spiral Vase Settings for the Prusa MK3S+ / PLA

(Image credit: Prusa)

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Material	Prusament PLA, Galaxy Purple
Layer Height	0.20mm
Infill Percentage	0%
Print Speed	60mm/second
Extruder Temperature	215 degrees Celsius (419 degrees Fahrenheit)
Heated Bed Temp	60 degrees Celsius (140 degrees Fahrenheit)
Print Time	3 Hours, 9 Minutes

(Image credit: Tom's Hardware)

Slicing a model using the ‘Spiral Vase’ mode in PrusaSlicer will automatically create a model that is composed of a single continuously rising helical contour, which allows models to be printed a fraction of the time it would normally take to print using multiple layers. This mode is ideal for printing objects like vases or enclosures that only require a single contour as opposed to multiple contours and an infill structure. I printed the Curved Honeycomb Vase by eggnot to highlight this printing mode.

(Image credit: Tom's Hardware)

The Prusament Galaxy Purple is a favorite color of mine due to the glitter additive in the filament. This additive creates layer lines that are evenly blended and have a textured appearance. Combining this material with the Spiral Vase mode produces parts that look almost conventionally manufactured, with layer lines that are difficult to see. This model printed in just over 3 hours in Spiral Vase mode, as opposed to over 13 hours if it had been printed using conventional settings.

PrusaSlicer Speed Settings for the Prusa MK3S+ / PETG

(Image credit: Prusa)

Swipe to scroll horizontally

Material	Prusament PETG, Chalky Blue
Layer Height	0. 2mm
Infill Percentage	15%, Grid
Print Speed	60mm/second
Extruder Temperature	250 degrees Celsius (482 degrees Fahrenheit)
Heated Bed Temp	90 degrees Celsius (194 degrees Fahrenheit)
Print Time	4 Hours, 5 Minutes

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

PETG is a material that offers increased mechanical toughness, heat resistance, and flexibility when compared with parts printed with PLA. Prusa has taken advantage of these material properties by printing many of the components on the MK3S+ with PETG, which creates a rigid part that is able to withstand mechanical stress. PETG is also notoriously difficult to print with due to the high level of stringing that can occur when printing multiple parts simultaneously, but I didn’t have any issues when printing with the Prusament PETG material on the MK3S+.

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(Image credit: Tom's Hardware)(Image credit: Tom's Hardware)

I used the default settings in PrusaSlicer to print the clamp model provided by Prusa that was designed specifically for PETG. This model features a functional thread, a flexible ball-and-socket joint, and can be tensioned without snapping the body of the clamp. The part printed in multiple pieces without stringing, and I was able to easily assemble it and verify functionality without damaging the clamp. If printed in a more brittle material (like PLA), I would expect the clamp to crack at a transition point on the body, but the PETG was able to hold tension without deforming or breaking.

PrusaSlicer 3MF Import for the Prusa MK3S+ / PLA

(Image credit: Prusa)

Swipe to scroll horizontally

Material	Prusa Basic PLA, Silver
Layer Height	0. 20mm
Infill Percentage	15%, Grid
Print Speed	60mm/second
Extruder Temperature	215 degrees Celsius (419 degrees Fahrenheit)
Heated Bed Temp	60 degrees Celsius (140 degrees Fahrenheit)
Print Time	2 Hours, 17 Minutes

(Image credit: Tom's Hardware)

PrusaPrinters (the online file repository created and maintained by Prusa) offers the unique ability to share 3D printable files that have been pre-sliced and prepared for the MK3S+ with detailed print statistics available from the site. A perfect example of this is the Bag Clip by Andrei; a cam-driven bag clip that highlights the type of design freedom offered by a 3D printer.

This model has been uploaded as a .3MF file that contains all of the information required to print, such as slicer settings, nozzle and bed temperature, and custom support structures (visibile in the screenshot above. ) 3MF is an increasingly popular alternative to the STL file, which doesn’t contain much information aside from the raw geometry of a model.

(Image credit: Tom's Hardware)

This part printed flawlessly on the first try, and the provided .3MF (or .gcode) allows a user to send this file to anyone else with the same printer and material and feel confident that the part will be indistinguishable in appearance and performance. I’ve always thought of a 3D printer as the replicator from the Michael Crichton novel Timeline, which is able to produce identical objects at various locations by converting them into digital information. However, the success of a part is frequently beholden to the settings selected by a user for fabrication, so the ability to share the fabrication plans is one step closer to being able to send a physical product as a form of digital data.

(Image credit: Tom's Hardware)

At a price-point of $999 for an assembled printer (or $749 for a kit), the Prusa MK3S+ is a machine that doesn’t compromise on user experience and is absolutely one of the best 3D printers currently on the market. The MK3S+ has a professional and neat appearance, but the 8-bit monochrome LCD user interface might be a challenge for some users to get past, given the steep price. Interface aside, the prosumer features of the MK3S+ make it a stand-out machine for anyone who is looking for a reliable machine to produce functional parts without worrying about spending a lot of time tinkering.

If you are looking for a less expensive machine outside of the Prusa ecosystem, the Elegoo Neptune 2 (currently on Amazon for $180) offers similar printing size and features (with the notable exception of automatic bed leveling) at a fraction of the price but without the same level of robust support and documentation provided by the MK3S+ or any of the name-brand components like the E3D hotend. If you want the Prusa experience but are looking to spend a little less money, the Prusa Mini+ (available from Prusa for $399 assembled, $349 for a kit) is an excellent place to start.

Andrew Sink first used a 3D printer in 2012, and has been enthusiastically involved in the 3D printing industry ever since. Having printed everything from a scan of his own brain to a peanut butter and jelly sandwich, he continues to dive ever more deeply into the endless applications of additive technology. He is always working on new experiments, designs, and reviews and sharing his results on Tom's Hardware, YouTube, and more.

Large Area 3D Printer

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Discovery 3D Printer is a range of industrial 3D printers made in Spain for creating large-sized products and prototypes using FFF/FDM technology.

Discovery 3D Printer additive machines produce objects from high-strength thermoplastics and are designed for industries ranging from shipbuilding and automotive to architecture and medicine.

Problems solved

Replacement of spare parts or lost parts in engineering, shipbuilding, oil and gas and energy enterprises

Production of small and medium series of products as an alternative to injection or molding of plastic parts automotive, shipbuilding and oil and gas industries

Creation of objects of exterior and interior design and design products for construction, production of facing materials

Production of functional prototypes for R&D and design bureaus in mechanical engineering, shipbuilding and aircraft construction

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Discovery 3D Printers work with all thermoplastics, including:

PLA / PLA: biodegradable polymer provides a smooth and gliding surface products. Designed to obtain detailed and ready-to-use objects
ABS / acrylonitrile butadiene styrene: impact-resistant material is able to withstand heavy loads and high temperature, resistant to heat, moisture and various alkalis
PET / polyethylene terephthalate: is a hard and strong material with high abrasion resistance. Excellent suitable for making gears, carriages and guides
PA / polyamide: hard engineering plastic with excellent mechanical properties characteristics. Widely used in various industries
ASA / acrylonitrile styrene acrylate plastic: analogue of ABS, characterized by increased weather resistance, minimal shrinkage and high impact strength
Nylon: is elastic, wear-resistant and remarkably durable. Good suitable for printing functional parts and mechanisms
HIPS / polystyrene: Lightweight, alkali and acid resistant polymer. deserved popular in traditional manufacturing due to its impact resistance

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ISO 9001 certified products

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Accelerate the creation of new products thanks to the dual extrusion system

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Ability to use a large number of third-party materials

Self-leveling platform function for automatic compensation of irregularities

Case Studies

FDM Airbus Spare Parts 3D Printing

Industry:	Aircraft industry
Equipment:	Super Discovery 3D Printer
Material:	CFRP SABIC LNP™ THERMOCOMP™ AM EZ006EXAR1

Created a strong mold for autoclave forming parts with a sealed surface and a low thermal expansion coefficient.

3D printed car bumper

Industry:	Automotive
Equipment:	Super Discovery 3D Printer
Material:	ABS with carbon fiber

Prototype car bumper printed, measuring 1800 x 600 x 4500 mm and weighing 12 kg.

Large format 3D printed chair

Industry:	Design
Equipment:	Super Discovery 3D Printer
Material:	3D850

Printed design armchair measuring 45 x 50 x 95 cm and weighing 18 kg.

3D printed architectural statue

Industry:	Architecture
Equipment:	Super Discovery 3D Printer
Material:	ABS with cellulose fiber

The solid statue is printed and is 1. 87 m high and 45 kg in weight.

3D printing of railway components

Industry:	Railway industry
Equipment:	Super Discovery 3D Printer
Material:	plastic

The front part of a tram for CAF was made in one printing session.

Helicopter seat 3D printing

Industry:	Design
Equipment:	Super Discovery 3D Printer
Material:	ABS with carbon fiber

Printed helicopter seat measuring 120 x 70 x 45 cm and weighing 20 kg.

3D printed internal combustion engine

Industry:	Engineering
Equipment:	Discovery 3D Printer 2021
Material:	Premium PLA

Prototype of an internal combustion engine was created, the dimensions of which were 100 x 60 x 50 cm and the weight was 5. 5 kg.

3D printed exclusive piece of furniture

Industry:	Design
Equipment:	Super Discovery 3D Printer Workstation
Material:	ABS

A custom and exclusive chair created without the need for any further finishing.

Architectural 3D printed in durable ABS with cellulose

Industry:	Design
Equipment:	Super Discovery 3D Printer Workstation
Material:	ABS

A street sculpture has been made that fully implements the initial decorative idea of the project.

Dior boutique window dressing

Industry:	Advertising
Equipment:	Super Discovery 3D Printer Workstation
Material:	plastic

Huge bottles 3D printed for exclusive display at Dior's flagship stores.

FDM Cap Prototype

Industry:	Design
Equipment:	Discovery 3D Printer 2021
Material:	3D850

Prototype cap printed at 29 x 19 x 4.5 cm and weighing 146 g. Shipbuilding Equipment: Super Discovery 3D Printer Material: fireproof ABS

A prototype of a modular toilet has been printed, measuring 2200 x 1700 x 1200 mm and weighing 250 kg. At the same time, the weight of the product was reduced by almost 50%.

3D printed marine ventilation grille

Industry:	Shipbuilding
Equipment:	Super Discovery 3D Printer
Material:	ABS with carbon fiber

Ventilation grill printed 59 x 89 x 4. 5 cm and weight 3500 g. Automotive Equipment: Discovery 3D Printer 2021 Material: PACF

Printed motorcycle part measuring 42.5 x 16.5 x 4.5 cm and weighing 165 g. Instrumentation Equipment: Discovery 3D Printer 2021 Material: ABS HI

Prototype printed with support measuring 10 x 9 x 2.5 cm and weighing 18 g. Instrumentation Equipment: Discovery 3D Printer 2021 Material: fireproof ABS

Created a square mold that measures 10 x 10 x 2 cm and weighs 67 g. Automotive Equipment: Discovery 3D Printer 2021 Material: E.P.

Printed fender for a wheel measuring 55 x 16 x 20 cm and weighing 645 g. Energy Equipment: Super Discovery 3D Printer Workstation Material: ABS with carbon fiber

3D printed and post-processed a high-strength mold for wind turbine blades.

3D printed car wheel

Industry:	Automotive
Equipment:	Super Discovery 3D Printer
Material:	ABS with carbon fiber

A wheel for a car was made, the diameter of which was 440 mm, and the weight of the product was 5 kg.

3D printed designer vase

Industry:	Design
Equipment:	Super Discovery 3D Printer Workstation
Material:	ABS with carbon fiber

Printed vase in ABS for excellent interlayer adhesion and minimal warping.

Geometric 3D printing

Industry:	Design
Equipment:	Super Discovery 3D Printer Workstation
Material:	ABS with carbon fiber

Pyramid printed with an 8mm extruder with a smooth surface thanks to the built-in milling system.

More projects and examples of 3D printing in production - in the blog 3D experts

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Useful materials

Webinar on 3D printing large objects with complex geometry

How can 3D printing help you optimize production?
Features FDM-technology for printing products up to 2. 5 meters
Benefits of using 3D plastic printing
Real cases

Large Format Plastic 3D Industrial Printing Brochure

Benefits of FDM Technology, Overview of Equipment and Consumables, industries and implementation examples - this and much more in one material!

About the manufacturer

CNC Barcenas / Spain

is one of the leaders in the European market for large format 3D printing.

The company specializes in the production of industrial 3D printers Discovery 3D Printer for printing large-sized products and prototypes based on FFF/FDM technology.

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About us

iQB Technologies is a Russian distributor of 3D printers, consumables, 3D scanners and software from the world's leading manufacturers.

We develop complete 3D solutions, provide printing services and scanning, as well as training specialists in the use of 3D technologies in their work.

iQB Technologies is the exclusive distributor of Discovery 3D Printer solutions in Russia.
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Why order a 3D printer from iQB Technology?

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Frequently Asked Questions

Which technology to choose: the method of fusing granules (FGF) or polymer filaments (FFF / FDM)?

What are the kinematics and mechanics of the Discovery equipment?

In this respect, all Discovery equipment differs from budget additive solutions. The products are based on the kinematic diagram of a CNC machine. Gears, pulleys, lead screws, no belts. HIVIN rail guides are used. The entire structure is made with European quality from advanced products in the machine tool industry.

What consumables can be used with Discovery products?

Any material (other than PEEK and PEKK) sold in bars or pellets. First of all, thanks to the heating of the table to 175 ° C and vacuum fixation, as well as due to the installed nozzles made of hardened steel.

How is such a large print platform heated?

A matrix of separate equidistant heaters is built into the platform from the bottom side; these modules provide uniform heating of the surface of the printing platform. The maximum recorded temperature difference over the entire area is 3°C.

How to speed up printing on such large dimensions?

There is a special method for properly emptying the internal volume, which you can learn more about from our technical experts. This procedure will have very little effect on the strength and elasticity of the print object, but will still reduce the time by up to 60%.
It is important to consider that with a large range of large-sized products, it is better to consider Super Discovery 3D Printer or Super Discovery 3D Printer Workstation with a capacity of up to 11 kg / h (depending on the material used).

Is it possible to upgrade this equipment for a specific enterprise?

Yes. Most of the Discovery machines can be upgraded for a specific production project. This is possible, since the equipment was designed for the tasks of Production 4.0, and our specialists will help to integrate it correctly.

What is the warranty for this equipment?

24 months, which is 1.5 - 2 times more than analogues from Europe, Russia and China. Permanent customer support is provided directly by the vendor or iQB Technologies specialists.

How to get a high quality product so that it can be handed over as a final product?

3D printing is basically a high quality preform process. If you need to get the final product, it is suggested to use milling or turning equipment, manual machining, priming, painting or varnishing.
This is often not necessary as the product is not visible.

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