Best metal 3d printer 2023

Best metal 3D printers in 2022: comprehensive overview

What is the best metal 3D printer in 2022?

Over the past few years, there has been a surge in both supply and demand for metal 3D printers.

Manufacturers are launching metal additive manufacturing machines that are faster, easier to use, and more powerful with an increasing number of compatible metals.

Many businesses are adopting these 3D metal printing technologies to produce cost-effective metal parts and prototypes, benefiting as well from increased freedom of design linked to additive manufacturing. They are suitable for a variety of industries such as aerospace, automotive, health, engineering, and more.

Although metal 3D printer prices have been slowly and slightly decreasing, these machines are still relatively expensive acquisitions, mostly ranging from $80K to almost $1M.

With our metal 3D printer selection, we aim to provide a comprehensive overview of what’s available from well-established and distributed brands, at various price points, and with different metal 3D printing technologies.

The best metal 3D printers in 2022

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, …).
Markforged	Metal X (Gen 2)	300 × 220 × 180 mm11.81 × 8.66 × 7.09 in	United States	$ 99,500125 000 €88,260 £14,831,072 ¥	Quote
Desktop Metal	Studio 2	300 × 200 × 200 mm11.81 × 7.87 × 7.87 in	–	$ 110,000110 000 €97,574 £16,396,160 ¥	Quote
Xact Metal	XM200C	127 × 127 × 127 mm5 × 5 × 5 in	United States	$ 110,000100 000 €97,574 £16,396,160 ¥	Quote
Pollen AM	Pam Series MC	⌀ 300 x 300 mm	–	$ 140,000135 000 €124,186 £20,867,840 ¥	Quote
TRUMPF	TruPrint 1000	100 × 100 × 100 mm3. 94 × 3.94 × 3.94 in	–	$ 170,000170 000 €150,797 £25,339,520 ¥	Quote
3D Systems This brand is a certified partner from our network.	DMP Flex 100	100 × 100 × 80 mm3.94 × 3.94 × 3.15 in	–	$ 245,000245 000 €217,325 £36,518,720 ¥	Quote
EOS	EOS M 100	100 × 100 × 95 mm3.94 × 3.94 × 3.74 in	Germany	$ 350,000350 000 €310,464 £52,169,600 ¥	Quote
XJet	Carmel 700M	501 × 140 × 200 mm19.72 × 5.51 × 7.87 in	–	$ 599,000599 000 €531,337 £89,284,544 ¥	Quote
Desktop Metal	Production System P-1	200 × 100 × 40 mm7.87 × 3.94 × 1.57 in	United States	upon request	Quote
Digital Metal	DM P2500	203 × 180 × 69 mm7.99 × 7.09 × 2.72 in	–	upon request	Quote
Formalloy	L-Series	1000 × 1000 × 1000 mm39. 37 × 39.37 × 39.37 in	United States	upon request	Quote
GE Additive	Arcam EBM Spectra L	350 × 350 × 430 mm13.78 × 13.78 × 16.93 in	United States	upon request	Quote
GE Additive	M2 Series 5	250 × 250 × 350 mm9.84 × 9.84 × 13.78 in	–	upon request	Quote
Renishaw	RenAM 500E	245 × 245 × 335 mm9.65 × 9.65 × 13.19 in	–	upon request	Quote
SLM Solutions	SLM 125	125 × 125 × 75 mm4.92 × 4.92 × 2.95 in	Germany	upon request	Quote
SPEE3D	LIGHTSPEE3D	300 × 300 × 300 mm11.81 × 11.81 × 11.81 in	–	upon request	Quote
TRIDITIVE	AMCELL	⌀ 300 x 350 mm	Spain	upon request	Quote
Velo3D	Sapphire	⌀ 315 x 1000 mm	–	upon request	Quote

Expand to see more specs

Technology: The technologies listed above are main categories of metal 3D printing technologies. Most manufacturers have their own branded technologies, which fall into the main categories that are listed in the table.

The products in the table are ranked by price (low to high).

Brand	Product	Technology	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, …).
Markforged	Metal X (Gen 2)	Extrusion	300 × 220 × 180 mm11.81 × 8.66 × 7.09 in	United States	$ 99,500125 000 €88,260 £14,831,072 ¥	Get a quote
Desktop Metal	Studio 2	Extrusion	300 × 200 × 200 mm11.81 × 7.87 × 7.87 in	–	$ 110,000110 000 €97,574 £16,396,160 ¥	Get a quote
Xact Metal	XM200C	SLM/DMLS	127 × 127 × 127 mm5 × 5 × 5 in	United States	$ 110,000100 000 €97,574 £16,396,160 ¥	Get a quote
Pollen AM	Pam Series MC	Extrusion	⌀ 300 x 300 mm	–	$ 140,000135 000 €124,186 £20,867,840 ¥	Get a quote
TRUMPF	TruPrint 1000	SLM/DMLS	100 × 100 × 100 mm3. 94 × 3.94 × 3.94 in	–	$ 170,000170 000 €150,797 £25,339,520 ¥	Get a quote
3D Systems This brand is a certified partner from our network.	DMP Flex 100	SLM/DMLS	100 × 100 × 80 mm3.94 × 3.94 × 3.15 in	–	$ 245,000245 000 €217,325 £36,518,720 ¥	Get a quote
EOS	EOS M 100	SLM/DMLS	100 × 100 × 95 mm3.94 × 3.94 × 3.74 in	Germany	$ 350,000350 000 €310,464 £52,169,600 ¥	Get a quote
XJet	Carmel 700M	Material Jetting	501 × 140 × 200 mm19.72 × 5.51 × 7.87 in	–	$ 599,000599 000 €531,337 £89,284,544 ¥	Get a quote
Desktop Metal	Production System P-1	Binder Jetting	200 × 100 × 40 mm7.87 × 3.94 × 1.57 in	United States	upon request	Get a quote
Digital Metal	DM P2500	Material Jetting	203 × 180 × 69 mm7. 99 × 7.09 × 2.72 in	–	upon request	Get a quote
Formalloy	L-Series	Directed Energy Deposition	1000 × 1000 × 1000 mm39.37 × 39.37 × 39.37 in	United States	upon request	Get a quote
GE Additive	Arcam EBM Spectra L	EBM	350 × 350 × 430 mm13.78 × 13.78 × 16.93 in	United States	upon request	Get a quote
GE Additive	M2 Series 5	SLM/DMLS	250 × 250 × 350 mm9.84 × 9.84 × 13.78 in	–	upon request	Get a quote
Renishaw	RenAM 500E	SLM/DMLS	245 × 245 × 335 mm9.65 × 9.65 × 13.19 in	–	upon request	Get a quote
SLM Solutions	SLM 125	SLM/DMLS	125 × 125 × 75 mm4.92 × 4.92 × 2.95 in	Germany	upon request	Get a quote
SPEE3D	LIGHTSPEE3D	Material Jetting	300 × 300 × 300 mm11. 81 × 11.81 × 11.81 in	–	upon request	Get a quote
TRIDITIVE	AMCELL	Extrusion	⌀ 300 x 350 mm	Spain	upon request	Get a quote
Velo3D	Sapphire	SLM/DMLS	⌀ 315 x 1000 mm	–	upon request	Get a quote

Main types of metal 3D printing technologies

The four main types of 3D metal printing technologies are:

• Metal Powder Bed Fusion 3D printing (SLS, SLM, DMP)
• Directed Energy Deposition (DED)
• Metal filament extrusion (FFF, FDM)
• Material Jetting and Binder Jetting

There are also some resin-based metal 3D printers, and metal sheet lamination 3D printers, but they are harder to come by.

It is not uncommon to see different acronyms and names for similar technologies. Each brand markets their own, proprietary methods. Some metal 3D printer companies even use a mix of different technologies.

A breakdown of the metal 3D printer market by technology types. Source: Aniwaa database (2019)

Here we provide a deeper look into each 3D metal printer from our list. They are grouped together according to their main 3D printing technology type (powder bed fusion, material/binder jetting, extrusion, and DED).

Extrusion-based metal 3D printer selection (FFF, FDM)

Extrusion consists of heating the material (filament) and pushing it through a nozzle. In the metal 3D printing case, the filament is generally made up of metal particles mixed into a binding agent.

After the part is 3D printed, the result is a raw object or part; it must go through several post-processing steps– such as debinding and sintering– to attain its final form.

Most extrusion-based metal 3D printing processes include these steps. The above illustration is sourced from Desktop Metal (Bound Metal Deposition™ process).

Desktop Metal’s Studio is an office-friendly, end-to-end metal 3D printing system. Aside from the printer, the Studio line also includes a debinding machine and a furnace for sintering. Indeed, parts 3D printed with this Desktop Metal 3D printer are “green”.

The Studio printer, with its proprietary Bound Metal Deposition technology, uses filament that is filled with small, metal rods. During debinding, the binding material (wax and polymer binders) is dissolved thanks to a proprietary liquid substance. The part is left porous, and must go in the furnace for its particles to fuse and densify the part.

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MarkForged is specialized in continuous fiber 3D printing, but also offers metal 3D printing with their Metal X system, featuring Atomic Diffusion Additive Manufacturing (ADAM) technology.

This MarkForged 3D printer extrudes metal-filled plastic filament to form the part, which must then be washed with a special debinding fluid (Wash-1 Station) and then sintered in a furnace (Sinter-1 or Sinter-2 MarkForged machines).

Available metal 3D printer filament includes various Steels (h23, A2, D2 tool steels, 316L stainless steel) as well as Inconel, Copper, and Titanium.

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Canada-based Rapidia offers an interesting and unique way to 3D print metal. They use a water-based metal paste, which eliminates the need for chemical debinding. The water evaporates during the 3D printing process, so the part only needs to go through the furnace in order to completely solidify and attain its final form.

Confirmed, available paste types include several Stainless Steels, Inconel, and a few ceramics. Copper, Tungsten Chrome Carbide, Titanium, and various other metals are in development.

The ExOne Metal Designlab, designed in collaboration with Rapidia, works on the same basis.

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Pollen AM is a French manufacturer that has been producing pellet 3D printers since 2013. Their Pam Series MC is a delta-style 3D printer (cylindrical build volume) that can print metals, ceramics, and thermoplastics.

It extrudes injection-molding-grade pellets instead of metal 3D printer filament, driving material costs down significantly. Pollen AM names their technology “Pellet Additive Manufacturing”.

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This machine was built with one goal: enable mass production 3D printing of metal parts 24/7. The AMCELL is fully automated, with auto feedstock control, environment control (temperatures, humidity, air filtering), and an ejection system fitted with a conveyor belt.

Rather than providing one, big build volume, the TRIDITIVE AMCELL boasts eight delta-style ø 220 x 330 mm build areas. Its eight “robots” deposit metal-infused filament to create 3D metal parts. TRIDITIVE states that resulting parts are similar to ones produced with traditional MIM (Metal Injection Molding) methods.

TRIDITIVE’s technology is called Automated Multimaterial Deposition®.

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Metal powder bed fusion 3D printer selection (SLS, SLM, DMP, and more)

At the moment, the most commonly used metal additive manufacturing technology is powder bed fusion 3D printing. Simply put, the 3D printer creates objects out of a bed of powdered metal by using a powerful laser.

3D Systems, a historical actor on many 3D printing fronts, presents the DMP FLEX 100 as a fast, precise, and affordable metal 3D printer. It offers impressive part repeatability and surface finishes, of around 20 μm and 5 Ra μm respectively. DMP stands for Direct Metal Printing.

The printer comes with 3D Systems’ software 3DXpert All-in-One Software Solution for Metal Additive manufacturing. Their LaserForm metal 3D powders are certified.

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This compact metal 3D printer is destined for the production of small parts in small quantities. Its material portfolio is especially interesting for medical use cases, namely dental crowns and bridges. EOS certified metal powders include Cobalt-Chrome, Stainless Steel, and Titanium.

The EOS M100’s laser spot is precise enough to provide a great level of detail, backed by 200 W of powder.

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Originally a Swedish company, Arcam was acquired by GE Additive a few years ago. The Arcam EBM Spectra L is up to 20% faster than its predecessors and is able to reduce part costs by around 10%.

This metal 3D printer is dedicated to Titanium 3D printing, but Copper is in the pipeline as well. Its laser beam power is equal to 4.5 kW, partly explaining the printer’s high melting capacity and productivity. Common applications for this printer include orthopedic implants and parts for the aerospace industry.

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Concept Laser is the company behind GE Additive’s M2 Series 5. It offers an easy, optimized workflow, with a separate processing chamber and handling area that is integrated into the system. This closed-loop material system ensures a safe environment that is free of powder for the operator.

The M2 metal additive manufacturing solution is compatible with a range of metals, from Stainless Steels to Aluminum, Nickel, Titanium, and Cobalt-Chrome.

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The RenAM 500E is Renishaw’s entry-level metal additive manufacturing solution. It offers a relatively large build volume and powder can be handled via a dedicated glove box to avoid powder from getting free.

This system is also equipped with an oxygen sensor and a proprietary emission-filtering system branded SafeChange™.

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Officially established in 2006, SLM Solutions has been a historical player in the powder bed fusion industry for many years. The SLM 125 boasts an open software architecture that allows users to tweak the system’s parameters according to specific use cases, materials, and general needs.

Options such as laser monitoring and melt pool monitoring are available for businesses that require full transparency and control over their production series.

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The TruPrint 1000 is TRUMPF’s most compact metal 3D printing system, with a 100mm-tall cylindrical build volume. It is suitable for the production of small parts and prototypes, and even small production series when equipped with the multilaser option that increases the printer’s speed.

This metal 3D printer can be operated remotely via a tablet application, which also gives access to its onboard camera stream.

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The Velo3D Sapphire is a high-volume metal 3D printer from the US designed for production series. This metal 3D printer features Velo3D’s Intelligent Fusion technology to allow for complex geometries and 0° overhangs.

The system is also equipped with a range of metrology sensors that measure each and every layer that is 3D printed.

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The XM200C is Xact Metal’s entry-level metal 3D printing solution. It is suitable for both research purposes and small production series. The XM200C benefits from a proprietary Xact Core gantry system for precise movements with a fusing speed of up to 500 mm/s.

Xact Metal offers their own materials, branded Xact Powder, including various Stainless Steels, Super Alloys, Tooling Steels, Aluminum, Titanium, Bronze, and Copper. Advanced users are able to use their own metal powders if needed.

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Metal material jetting and binder jetting 3D printers

Material jetting 3D printers are equipped with various inkjet printheads (somewhat similar to 2D printing) that jet material onto a surface. The material then hardens, and another layer of “metal ink” is jetted on top.

Binder jetting is a similar process, but it is a binding agent that is jetted atop a layer of powder.

The Production System by Desktop Metal was designed for mass production. It is advertised by Desktop Metal as being a fast, cost-effective metal additive manufacturing solution, with a cost per part up to 20 times lower than with other metal 3D printing systems.

This Desktop Metal 3D printer is equipped with over 16,000 nozzles that are mounted onto a “print bar” that recoats the build plate with powder at the same time, hence explaining the technology’s name: Single Pass Jetting™.

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Digital Metal, a Höganäs Group company, creates incredibly detailed metal parts with their DM P2500 system. It is able to print 3D metal parts with an accuracy as high as 0.001mm (1µ), and with a medical-grade surface quality of around 0.006mm (6µ).

Another interesting feat to point out is that almost 100% of leftover powder can be recycled for future prints. This metal AM machine is able to churn out serial production series efficiently and reliably; one of the company’s first DM P2500 printers has been running 24/7 since 2013, according to Digital Metal.

The Digital Metal DM P2500 is a certified metal 3D printer (CE and UL) that is compatible with certified metal materials (ISO 22068).

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Australian manufacturer SPEE3D has developed an impressively fast metal 3D printing technology called Supersonic Deposition. The technology is based on metal cold spray, using compressed air to “jet” metal powder through a nozzle at high speeds.

This enables the LightSPEE3D to 3D print at up to 100 grams per minute and with a range of metals including copper.

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XJet developed an impressive, proprietary jetting technology they call NanoParticle Jetting™. This inkjet method disperses millions of tiny droplets that contain nanoparticles of solid metal. The liquid material comes in cartridges that are easy to insert into the printer.

After being printed, the metal parts must go through support removal and sintering processes to attain their final form.

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DED: Directed Energy Deposition metal additive manufacturing systems

Directed Energy Deposition (DED) is comparable to filament extrusion. The metal material is pushed through a special nozzle, like with FFF/FDM, but a powerful laser beam solidifies the material at its deposition point.

Formalloy produces a range of metal DED 3D printers with up to 5 axes of motion. They can be used to produce metal parts but also to repair or clad existing parts.

Different laser wavelengths are available, as well as different build volumes: 200 x 200 x 200 mm, 500 x 500 x 500 mm, and 1000 x 1000 x 1000 mm. Metal 3D printers from Formalloy can be customized depending on company requirements.

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Alternative metal 3D printers and special mentions

Hybrid metal manufacturing systems

Some manufacturers are specialized in hybrid metal manufacturing systems. They combine both subtractive and additive manufacturing methods, often with robotic arms that are able to move on more than three axes.

Some of the biggest actors on the hybrid metal AM system market are:

• Gefertec (Germany)
• DMG Mori (Germany)
• Matsuura (Japan)
• Sodick (United States)

XXL-sized metal 3D printers for industrial production

For those that require very large metal parts, there are several huge, industrial machines that offer gigantic build volumes for industrial production. To name a few:

• Sciaky EBAM 300
• Titomic TKF1000
• ADC Aeroswift
• ADIRA AddCreator
• Fabrisonic SonicLayer 4000
• ExOne X1 160PRO
• InssTek MX-600
• BeAM Modulo 400
• Optomec Lens CS 600
• Additive Industries MetalFAB1

Metal 3D printers from China

There has recently been a lot of growth in the metal 3D printer market in Asia, and more specifically in China. Some Chinese brands have been upping their game in that respect, providing industrial-grade metal 3D printing options:

• Farsoon
• ZRapid Tech
• Shining 3D
• Wiiboox

However, we feel that they are not yet playing in the same league as the 3D printers from our main selection, mostly due to a lack of distribution networks, after-sales service and training, and other factors which tend to matter when considering them together as a whole.

R&D metal 3D printers for labs

In certain cases, metal 3D printers are used for research purposes to develop and test new materials. There are a few machines that are specifically designed for this:

• Open Additive PANDA-6”
• Freemelt ONE
• Sharebot metalONE

Pros and cons of metal 3D additive manufacturing

Benefits of 3D printing metal parts

• On-demand production: Metal additive manufacturing offers more flexibility and control over the production line.

• Complex designs made possible: With 3D printing technology, it is possible to create highly detailed and intricate parts that would have to be broken down into several pieces with traditional methods.

• Waste reduction: Compared to CNC milling, for example, metal AM produces much less waste as it only consumes the material needed for a certain part. This is more true for extrusion-based methods than it is for powder-based methods, where it isn’t always possible to re-use 100% of unsintered or unbinded material.

• Lighter parts: Whereas metal parts are usually completely solid infill-wise with other methods, 3D printing allows parts to be more or less hollow without undermining their strength and resistance.

• Cost-effectiveness: All the above benefits of metal 3D printing can inherently reduce costs per part, although high metal 3D printer prices do represent a significant entry barrier. Reaching a positive return on investment can take a while depending on your throughput.

Limits of metal 3D printing

• Metal 3D printing prices: Metal AM systems are still quite expensive, as are metal powders and metal filaments. There are hidden costs, too (e.g. energy consumption, learning curve, etc.).

• Environmental constraints and safety precautions: Most metal 3D printers have a large footprint and require specific operating environments with controlled temperatures, hygrometry, and more.

• Post-processing: In many cases it is necessary for parts to be post-processed, whether it’s debinding and sintering or finishing touches for surface quality.

• Physical properties: It can be difficult to achieve the same physical properties that traditionally manufactured metal parts have. There are a number of factors (e.g. anisotropy) to take into account during the design process and file preparation before even trying to 3D print a certain part.

Metal 3D printing materials

Which metals can you 3D print?

A growing number of metals and metal alloys can be 3D printed. These are the main ones:

• Aluminum
• Titanium
• Nickel, Inconel
• Copper
• Bronze
• Cobalt, Cobalt-Chrome
• Steels (tooling, maraging, stainless)
• Precious metals (gold, silver, platinum)

Which metal 3D printing material formats are available?

Metal 3D printing material can be found in various formats, catering to different metal 3D printing methods. The most common are:

• Powder
• Wire
• Filament

It is also possible to find metal 3D printing resin as well as metal sheets for lamination-based 3D printers.

Metal 3D printer price: how much does a metal 3D printer cost?

Industrial metal 3D printer prices generally range from about $30,000 to over one million dollars for the most premium, industrial-grade metal additive manufacturing systems.

Additional costs to consider are the materials for metal 3D printing, which can cost a few hundred USD/kg, as well as costs linked to post-processing (tools, time, etc.).

Applications for metal AM systems

There are thousands of possibilities and use cases for metal 3D printing in a wide range of industries. A few industries have been incrementally using metal AM:

• Aerospace
• Automotive
• Medical

Whether it’s for tooling, replacement parts, or final products, many businesses can benefit from metal 3D printing.

However, metal additive manufacturing isn’t necessarily beneficial for every single metal part. Although some metal 3D printing systems have a relative capacity for serial production, it is generally cheaper to keep using traditional methods for simple parts.

For cases where complex geometries, rapid prototyping, and mass customization are required, metal AM is convenient and efficient.

Metal 3D printing services: order 3D metal parts online

For professionals with limited office space and human resources, low budgets, and/or few needs of custom parts and prototypes, metal 3D printing services can be an ideal solution.

These additive manufacturing service companies own a variety of high-quality 3D printers with different technologies, and their professionals are experts in 3D printing. It is possible to order metal 3D parts on-demand, without acquiring a 3D printer or having to buy a certain material for one-time use.

Here are some of the most trusted 3D printing service providers that offer metal printing services:

• Sculpteo
• Shapeways
• Hubs (ex 3D Hubs)
• Stratasys
• i.materialise
• Protolabs

Metal 3D printing technologies and acronyms

Many manufacturers develop proprietary variations of existing technologies and label them their own registered names:

• Powder Bed Fusion (PBF): DMLS (Direct Metal Laser Sintering), DMP (Direct Metal Printing), LaserCUSING, LBM (Laser Beam Melting), LMF (Laser Metal Fusion), SLS (Selective Laser Sintering), SLM (Selective Laser Melting)
• Directed Energy Deposition (DED): DMT (Direct Metal Tooling), EBAM (Electron Beam Additive Manufacturing), EBM (Electron Beam Melting), LENS (Laser Engineered Net Shaping), LMD (Laser Metal Deposition)
• Metal Material Jetting (MJ) or Binder Jetting (BJ): Magnet-o-Jet, Nanoparticle Jetting, SPJ (Single Pass Jetting), Metal Jet
• Metal filament extrusion/Fused Filament Fabrication (FFF): ADAM (Atomic Diffusion Additive Manufacturing), CEM (Composite Extrusion Modeling), FDM (Fused Deposition Modeling), FFD (Fused Feedstock Deposition), FMP (Filament Metal Printing), BMD (Bound Metal Deposition), MIM (Metal Injection Molding)
• Lamination: SL (Sheet Lamination), UAM (Ultrasonic Additive Manufacturing)
• Metal resin 3D printing: DLP (Digital Light Processing), FluidFM, SLA (Stereolithography)

Metal 3D printing FAQ

Is 3D printed metal strong?

Metal 3D printed parts can be as strong (or even stronger) as metal parts created with traditional manufacturing processes such as casting. The part’s strength will, however, depend on the metal AM method used and the conditions in which it is 3D printed.

When was 3D metal printing invented?

Metal 3D printing became possible in the 1990s with the development of Selective Laser Melting technology. However, 3D metal printing only started to gain traction and public interest from around 2010 onwards.

How does metal 3D printing work?

There are several ways to 3D print metal. Layers of metal filament can be deposited one after the other, producing a green part that must later go through debinding and sintering steps. It is also possible to fuse metal powder particles together with a laser, or with an inkjet printhead that deposits drops of binding material onto the powder.

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

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  + PrusaSlicer provides best-in-class model slicing

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  + Flexible build platform sets the standard

• +

  + Automatic bed leveling

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  + 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. 

Image 1 of 2

(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)

Swipe to scroll horizontally

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.

TOP-15 best models in terms of quality and reliability

A 3D printer is a device used for 3D printing. In this article, we will tell you how to simplify the search for the necessary 3D printer model among the variety on the market. We analyzed the options available in online stores, studied their functionality, got acquainted with the technical characteristics and user reviews. Here we present the ranking of the best 3D printers for 2022-2023. They are grouped by the most popular request categories.

Ranking of the best 3D printers for 2022-2023

Place	Designation	Price	Description
Best 3D printers by price/quality for 2022-2023
1	Wanhao D12/500	Ask for a price	Best in price/quality for 2022-2023 as selected by users
2	Creality 3DPrintMill CR-30	Ask for a price	High quality 3D printer using conveyor printing method
3	Phrosen Schuffle XL Lite	Ask for a price	Stable and easy to use large format 3D printer
Best Kids Education 3D Printer
1	Creality Ender 7	Ask for a price	Best Educational 3D Printer for Kids
2	Anycubic Vyper	Ask for a price	Excellent value for money 3D printer with new board and high performance control chip
3	Flying Bear Aone	Ask for a price	Budget model of children's educational 3D printer
Top Industrial 3D Printers
1	Anycubic Photon Mono X	Ask for a price	The best industrial printer according to experts today
2	Phrozen Sonic Mighty 4K	Ask for a price	Robust 3D printer for industrial projects
3	CF Chef	Ask for a price	A new chocolate 3D printer that is suitable for creating various types of chocolate figurines
Top Resin 3D Printers
1	Creality HALOT ONE PLUS	Ask for a price	Best Large Area Resin 3D Printer Chosen by Users Today
2	Phrozen Sonic 4K 2022	Ask for a price	Good photoresin 3D printer often used in dentistry and dental laboratories
Best Home 3D Printers
1	Creality Ender 3 Pro	Ask for a price	Best 3D printer for home projects
2	Flash Forge Adventurer 3	Ask for a price	Reliable and high quality 3D printer for various home projects
Best Inexpensive 3D Printers
1	Creality Ender 3	Ask for a price	Best budget 3D printer available as a do-it-yourself device
2	Anycubic Mega-S	Ask for a price	Inexpensive 3D printer with excellent functionality

Contents

• Top 3D printers 2022-2023 ranking
• How to choose a 3D printer?
• Best 3D printers by price/quality for 2022-2023
  • technology and volume of printing;

  If you are going to produce high precision and small parts, SLA or DLP is the way to go. If the range of tasks is wider and low manufacturing cost is important, then your choice is an FDM printer.

  • working space size;

  Many 3D printers have a working space of 200x200x200mm. This is enough for most tasks. However, you may need a smaller size, or vice versa, you will need a larger one, it depends on your needs.

  • print precision;

  Nozzle size affects print accuracy. Not only smooth layers depend on it, but also the detailing of the model. A smaller nozzle diameter gives more detail, but slower production speed. Many printers have the ability to change the nozzle for a specific task.

  • platform heater;

  The presence of this function ensures better adhesion of the first layer. Engineering plastics, for example, cannot be used without heating the table, since the figures can warp.

  • camera type;

  Can be open or closed. The latter options are usually presented on more expensive and advanced models.

  • number of extruders;

  When printing complex elements, you will need a model with two materials and corresponding extruders in order to be able to print supports from soluble material. Models with a large number of angles greater than 30 degrees or a large number of hanging elements are called complex. If the models are not too complex, one extruder will suffice, which will greatly help save the budget.

  • print speed;

  The parameter implies the maximum head movement speed. A 14x4x10 tablet stand will print approximately 6-6.5 hours at 100mm/sec.

  • functionality;

  Printers can support wireless communication with various devices: phones, tablets, etc., as well as memory devices. Plus, as a rule, printers are already equipped with software when they are sold. Pay attention to the compatibility of the OS with the OS of the computer.

  Best Price/Quality 3D Printer 2022-2023

  1. Wanhao D12/500

  Wanhao D12/500 is the best price/quality 3D printer for 2022-2023 as voted by users. A 3D printer that is great for mass production. The optimal size of its zone makes it possible to print a large model in one cycle. The control system here is intuitive and clear, the user can easily calibrate the printer to fit his needs.

  The Wi-Fi connection helps you connect to your PC or laptop. Extruders will allow you to print using supports. The color display with touch keys will be an excellent assistant in setting up the device.

  Designed with a heavy duty frame and adjustable straps. The working surface is automatically heated to achieve adhesion to the first layers of plastic. The switch is equipped with 2 fuses for emergency protection.

  Specifications:

  • Print technology: FDM/FFF/PJP
  • working space dimensions: 500x500x500 mm;
  • print speed (extruder speed): 150 mm/s;
  • number of extruders: 2;

  Advantages:

  • 2 extruders;
  • high speed printing;
  • workspace size;

  Drawbacks:

  • cost;
  
  

  2.

  Creality 3DPrintMill CR-30

  The Creality 3DPrintMill CR-30 is a quality 3D printer using a conveyor printing method, which is perfect for small and medium businesses with the ability to organize mass production. Instead of a platform, there is a nylon-based transport tape with excellent adhesive properties.

  The design allows printing of long products of non-standard dimensions. Three powerful fans provide excellent airflow. Management is carried out using a convenient display, which is located on the right side of the case. There is an SD slot for downloading files offline.

  End of filament sensor will stop the device if the filament breaks. In the event of a power failure, auto-update will help restore functionality. The maximum extruder temperature is 240 degrees.

  Specifications:

  • Print technology: FDM/FFF/PJP;
  • working space dimensions: 200x170 mm;

  Advantages:

  • wireless connection;
  • the ability to adjust the temperature and speed;
  • is suitable for small and medium businesses;

  Disadvantages:

  • noisy;

  3.

  Phrosen Schuffle XL Lite

  The Phrosen Schuffle XL Lite is a stable and easy to use large format 3D printer. It makes it possible to print both large models as a whole, and many small ones at once. The new matrix shows excellent print accuracy. The software is included in the kit, so it is quite easy to manage the device.

  The printer is suitable for dentistry, jewelry and prototyping as it prints reliably with high precision. The double linear guide guarantees long-term operation without interruption.

  Operation is simplified by the large and bright display with an easy-to-use touch panel. The device can be used not only by professionals, but also by amateurs. Z-axis of the printer is stable, has zero fluctuations during printing.

  Specifications:

  • print technology: DLP, LCD;
  • print material: photopolymer;

  Advantages:

  • acceptable cost;
  • high precision printing;
  • stable Z-axis;

  Disadvantages:

  • sometimes there are some difficulties when changing already programmed material;

  Best Kids Educational 3D Printer

  1.

  Creality Ender 7

  The Creality Ender 7 is the ultimate children's educational 3D printer and one of the fastest in the mainstream segment. Its speed is its main trump card, but you need to remember that it is impossible to work with some types of thermoplastic at high speed. In general, not very high-precision details are printed quickly.

  Operation is carried out using a convenient display, which is located in the central part of the housing. For downloading files offline, there is an SD slot and a USB connector. The maximum extruder temperature is 260 degrees.

  The print platform is heated to 100 degrees. The nozzle has one of the most popular diameters of 0.4 mm. The printer is also equipped with a filament control sensor, and calibration is automatic.

  Specifications:

  • Print technology: FDM/FFF/PJP;
  • working space dimensions: 250x250x300 mm;
  • print speed (extruder speed): 250 mm/s;

  Advantages:

  • reasonable cost;
  • high speed printing;
  • large working space;

  Faults:

  • small print area;

  2.

  Anycubic Vyper

  The Anycubic Vyper is a great value 3D printer with a new board and high performance Cortex M3 control chip. It features good speed and smooth operation. It prints not only accurately, but also silently. The platform has a high-strength coating that provides easy removal of the finished model.

  The blower system consists of a pair of fans that will allow you to quickly cool the models. Management is carried out using a large touch screen. It features a new interface, simple and smooth operation, and the ability to switch languages ​​to English and Chinese.

  The electronic system automatically calibrates the platform with sixteen points. The dimensions of the device are compact, and the working space is large. Printing is recommended at a speed of 80-100 mm/sec.

  Specifications:

  • Print technology: FDM, FFF, PJP;
  • working space dimensions: 245x260x245 mm;
  • print speed (extruder speed): 100mm/s;

  Advantages:

  • quick and easy to assemble;
  • silent operation of the device;
  • convenient and clear control;

  Disadvantages:

  • not very convenient location of the coil;

  3.

  FlyingBear Aone

  The FlyingBear Aone is a low cost educational 3D printer for kids in a compact package suitable for home projects. It comes as a self-assembly kit. Its case is open, like many inexpensive models. The printing table is heated from 60 to 100 degrees Celsius.

  Print speed up to 100 mm/sec. Management is carried out using a special color touch screen, which is located at the bottom of the printer.

  The USB port can be used to connect to a PC or laptop, while the SD slot is suitable for stand-alone operation. The power supply is installed in the bottom of the case and is built-in. The extruder is equipped with a nozzle with a diameter of 0.4 mm.

  Specifications:

  • Print technology: FDM, FFF, PJP;
  • working space dimensions: 190x190x190 mm;
  • print speed (extruder speed): 100mm/s;

  Advantages:

  • fast and clear assembly;
  • inexpensive 3D printer;
  • is easy to use for beginners;

  Disadvantages:

  • very noisy fans;

  Best industrial 3D printers

  1.

  Anycubic Photon Mono X

  The Anycubic Photon Mono X is the best industrial printer according to experts today. It has the largest printable area among resin printers. It features good speed and smooth operation. It prints not only accurately, but also silently. The platform has a high-strength coating that provides easy removal of the finished model.

  Controlled by large touch screen. It features a new interface, simple and smooth operation. The dimensions of the device are compact, and the working space is large.

  Printing recommended at 80-100 mm/sec. The printer is equipped with a wireless Wi-Fi connection to connect to the Internet, to a computer or laptop. The matrix light source consists of UV LEDs. This improves accuracy and reduces exposure time.

  Specifications:

  • Print technology: LCD, SLA;
  • working space size: 120x245x192 mm;

  Advantages:

  • high detail;
  • large height and print area;
  • comfortable and bright screen;

  Disadvantages:

  • high cost of spare parts;

  2.

  Phrozen Sonic Mighty 4K

  The Phrozen Sonic Mighty 4K is a robust 3D printer for industrial projects with a large build area and fast print speed. It is an excellent choice for both creative and professional use. The new matrix shows excellent print accuracy.

  The software is included, so the device is easy to operate. The printer is suitable for dentistry, jewelry work and prototyping, as it has a reliable print with high accuracy.

  Double linear guide ensures long, trouble-free operation. Operation is simplified by the presence of a large and bright display with a convenient touch panel. The device can be used not only by professionals, but also by amateurs. Z-axis of the printer is stable, has zero fluctuations during printing.

  Specifications:

  • Print technology: DLP/LCD/SLA;
  • working space dimensions: 200x220x125 mm;
  • printing speed (layer building): 80 mm/h;

  Advantages:

  • quiet operation;
  • fast printing;
  • compact dimensions of the device;

  Disadvantages:

  • high cost;

  3.

  CF Chef

  CF Chef is a new chocolate 3D printer that is suitable for creating various types of chocolate figurines. It can be used to create openwork chocolate toppers for confectionery, print corporate chocolate gifts, make text messages and logos, and print chocolate figures.

  The dimensions of the printer are 300x300x380 mm, so it can be placed in any room, but the working area is quite large. The printing time of chocolate models depends on their complexity. The printer allows you to create 2D, 2.5D and 3D products. You can use a USB cable or a wireless WI-FI connection to connect to a computer. The printing speed can reach 100mm/s.

  Specifications:

  • print material: tempered chocolate and chocolate glaze;
  • print speed: 100 mm/s;

  Advantages:

  • the ability to connect to a computer or laptop;
  • good print speed;
  • is suitable for the food industry;

  Drawbacks:

  • cost;

  Top 9 Resin 3D Printers0005

  1.

  Creality HALOT ONE PLUS

  Creality HALOT ONE PLUS is the best large area photoresin 3D printer according to users today. It can be used for both business and home projects. The device is controlled using a convenient display, which is located in the central part of the case.

  Wi-Fi port and USB port for uploading files and updating firmware. The nozzle has one of the most popular diameters of 0.4 mm. The printer is also equipped with a filament control sensor, and calibration is automatic.

  UV source for improved detail and print quality. Windows and Mac OS are compatible with the printer. Quad-core ARM Cortex M4 processor provides high power and performance, as well as stable operation.

  Specifications:

  • Print technology: LCD;
  • working space dimensions: 102x160x172 mm;

  Advantages:

  • low cost;
  • the presence of a USB connector;
  • UV source;

  Drawbacks:

  • 1 extruder;

  2.

  Phrozen Sonic 4K 2022

  The Phrozen Sonic 4K 2022 is a good photopolymer 3D printer that is often used in dentistry and dental laboratories. The new matrix shows excellent print accuracy. The software is included in the kit, so it is quite easy to manage the device.

  The printer is suitable for dentistry, jewelry and prototyping as it prints reliably with high precision. The double linear guide guarantees long-term operation without interruption.

  Operation is simplified by the large and bright display with an easy-to-use touch panel. The device can be used not only by professionals, but also by amateurs. Z-axis of the printer is stable, has zero fluctuations during printing. In the event of an unexpected power outage, operation can be resumed from the point at which it was stopped.

  Specifications:

  • Print technology: DLP, LCD;
  • working space size: 134x200x75 mm;

  Advantages:

  • increased accuracy;
  • excellent performance;
  • availability of various interfaces;

  Disadvantages:

  • very high cost;

  Best 3D printers for home

  1.

  Creality Ender 3 Pro

  The Creality Ender 3 Pro is the ultimate 3D printer for home projects. It is quick to assemble, easy to understand and set up and ensures stable operation. Both an experienced user and a beginner can handle it.

  Operation is carried out using a convenient display, which is located in the central part of the housing. For downloading files offline, there is an SD slot and a USB connector. The nozzle has one of the most popular diameters of 0.4 mm.

  The printer is also equipped with a filament control sensor and calibration is automatic. The device can be used both as a main and as an additional to professional equipment. Branded power supply makes the device more stable. The camera of the printer is open, like many inexpensive models.

  Specifications:

  • Print technology: FDM, FFF, PJP;
  • working space dimensions: 220x250x220 mm;
  • print speed (extruder speed): 180mm/s;

  Pros:

  • is great for beginners thanks to easy assembly;
  • simple and inexpensive repair;
  • inexpensive model;

  Disadvantages:

  • noisy model;

  2.

  FlashForge Adventurer 3

  FlashForge Adventurer 3 is a reliable and high quality 3D printer for various home projects. With its use, you can print pre-prepared files. The device has a closed chamber. The supply end sensor will tell you when to add it. The printer will automatically stop when the media runs out.

  The nozzle has a typical diameter of 0.4 mm. It is made of stainless steel, which perfectly resists mechanical stress and quickly warms up during operation. LAN, USB and WI-FI interfaces allow you to connect to a computer or laptop. The printer is compatible with all major operating systems: Windows, Linux, MAC, which will be a big plus. The main working program FlashPrint will provide professionals and hobbyists with all the basic functions to work with.

  Specifications:

  • print technology: FDM, FFF, PJP;
  • working space size: 150x150x150 mm;
  • print speed (extruder speed): 100mm/s;

  Advantages:

  • convenient and clear slicer;
  • works silently;
  • flexible detachable platform;

  Disadvantages:

  • expensive to repair;

  Best Inexpensive 3D Printers

  1.

  Creality Ender 3

  The Creality Ender 3 is the ultimate budget 3D printer that comes as a DIY kit. The device is controlled using a convenient display, which is located in the central part of the case. For downloading files offline, there is an SD slot and a USB connector.

  One of the most popular nozzle diameters is 0.4 mm. Mechanical and electronic parts of the device are separated from each other. The device can be used both as a main and as an additional to professional equipment.

  Proprietary power supply makes the device more stable. The camera of the printer is open, like many inexpensive models. The workspace allows you to manage most projects. Even a beginner can handle this device.

  Specifications:

  • Print technology: FDM, FFF, PJP;
  • working space dimensions: 220x250x220 mm;
  • print speed (extruder speed): 180mm/s;

  Pros:

  • platform area is great for most applications;
  • simple and clear assembly;
  • budget model;

  Disadvantages:

  • slightly skewed in the Z-axis due to design features;

  2.

  Anycubic Mega-S

  The Anycubic Mega-S is an inexpensive 3D printer with excellent functionality that reproduces plastic products in layers. It features good speed and smooth operation. It prints not only accurately, but also silently. The platform has a high-strength coating that provides easy removal of the finished model.

  The dimensions of the device are compact and the working space is large. Printing is recommended at a speed of 80-100 mm/sec. After a power loss, the device automatically resumes the interrupted operation.

  The control is carried out using a special display. The camera of the device is open, like most inexpensive models. The new extruder allows you to choose not only standard types of plastic, but also its more flexible varieties.

  Specifications:

  • print technology: FDM, FFF, PJP;
  • working space dimensions: 210x205x210 mm;
  • print speed (extruder speed): 100mm/s;

  Advantages:

  • prints well with a minimum number of settings;
  • ease of assembly;
  • budget model;

  Disadvantages:

  • the original firmware does not provide printing from a computer;

  Which company to choose?

  Good quality 3D printer companies: Creality, Anycubic and Phrozen.

  Choosing the right 3D printer model is easy if you stick to the list of criteria you need. The more precisely you can determine the necessary parameters, the more and longer you will be pleased with the service life of the device.

  Useful video

  Review of models and tips on which one to choose in the video below:
  

  The best 3D printers for home, office or studio

  How often have you thought about buying a 3D printer? There is nothing surprising if such a thought periodically visited you. Today, 3D printing has gone beyond the geek toy it once was, and the 3D printer has become a truly useful device for many creative people. Such printers can be used not only to produce parts for all kinds of design projects, but also to print useful home appliances. In addition, the ability to print with consumables such as metal, rubber, or even biodegradable filaments means that finished products will be strong and durable. And if you are an experienced 3D artist or designer, you can combine your skills and the capabilities of a 3D printer to the maximum.

  Be aware that not all 3D printers work the same way. Some use spools of plastic filament that is heated like a hot glue gun and then laid out in layers on the print bed. The print quality of such devices can be good, but some manual processing is often required to smooth out the layer lines. Some models use an LCD screen to shine light onto the resin, while other printers use a laser to solidify the melted resin.

  If you do not want to do modeling, then the abundance of marketplaces with ready-made 3D models will allow you to get good results. Thingiverse, CG Trader and many other sites offer all sorts of models in . stl format that you can print with just a few clicks. Very often you can find free models.

  Anycubic Vyper

  Budget printer with good features

  Price: $399.
  Print volume: 245x245x260 mm.
  Layer thickness: 100 µm.

  Pros:

  • self-levelling bed included,
  • excellent level of detail,
  • good print speed.

  Cons:

  • the need for self-assembly.

  All Anycubic 3D printers are good options, but as the most affordable FDM printer, the Vyper is the best deal. It has features not found in more expensive options, and produces prints with great detail and clarity, while doing so with minimal noise. The heated self-levelling print bed is a great feature, but adding a magnetic spring steel sheet to make it easier to remove prints is a win-win.

  Ultimaker S3

  Best solution for general 3D printing tasks

  Price: $4,080.
  Print volume: 230x190x200 mm.
  Layer thickness: 20 µm.

  Pros:

  • double extruders make life easier,
  • is an excellent self-leveling heated build platform.

  Cons:

  • not the cheapest option,
  • noise level is higher than some other printers.

  Ultimaker printers come in a variety of sizes and capabilities, but the Ultimaker 3 is the model we deliberately included in our list of the best 3D printers. A 3D printer has most of the features you want from larger brethren, including dual extruders and nozzles of various sizes. This means that you can print models that would be difficult to print using PVA plastic, which dissolves in water. The Ultimaker 3 also has a print progress camera, a great touch screen interface and a solid build. If you need to master large volumes of printing, then choose the advanced version, which is a little more expensive.

  Elegoo Mars 2 Pro

  Best Resin Printing Solution

  Price: $329. 99.
  Print volume: 129x80x160 mm.
  Layer thickness: 50 µm

  Pros:

  • excellent print quality at a reasonable price,
  • fast printing at 1-2 seconds per layer.

  Cons:

  • self assembly required,
  • Printing smoke can be annoying.

  Elegoo is relatively new to the 3D printing market, but the original Mars printer made a good impression on the community. Mars 2 Pro only confirms the serious intentions of the manufacturer. The new 6” screen prints a layer in less than 2 seconds with no loss of clarity or blur, making this 3D printer one of the fastest resin printers around. In terms of prototyping speed, it's hard to beat unless you need larger objects, as the only real downside to the Mars 2 Pro is the small amount of printed assembly. Smoke when printing is typical for this type of printer.

  Makerbot Replicator+

  Universal 3D printer with FDM

  Technology: 4500 dollars
  Press volume: 295x195x165 mm
  Layer thickness: 100 μm

  Pluses:

  9021
  • a lot of options for connection.

  Cons:

  • takes up more space than most competitors,
  • is not the cheapest option.

  Makerbot has been around for a long time and is probably the best-known manufacturer of consumer 3D printers. Even Anna Kendrick used it in space in the movie Stowaway. Experience in this area has allowed Makerbot to maintain a similar area to previous models, but increase the volume of printing and reduce the noise level. This model provides a large number of connectivity options, including Wi-Fi. The Makerbot Replicator+ even has a camera so you can watch what's going on remotely. Printing results are good and need only a little manual refinement, because this is an FDM printer. The Replicator+ is a great and reliable option if you are looking to purchase a 3D printer for your home office, school or workshop.

  Anycubic Photon mono SE

  Best choice for printing 3D miniatures

  Price: $449.89.
  Print volume: 130x78x160 mm.
  Layer thickness: 100 µm.

  Pros:

  • excellent level of detail,
  • smooth surface.

  Cons:

  • The pairs of highlights during printing can be unbearable,
  • resin is expensive.
  Anycubic's

  Photo Mono SE is a great choice if you like custom toys, collectibles or action figures from PC games as the detail on this printer is fantastic. Like other monochrome printers, it is fast enough. It only takes about a second to print one layer. The resin may have an unpleasant odor, but you can place the printer under an air exhaust cabinet. This is a small sacrifice for such a productive machine, which is really worth the money spent.

  Markforged Onyx One

  Best Metal Printer

  Price: $4,794.
  Print volume: 320x132x154 mm.
  Layer thickness: 100-200 µm.

  Pros:

  • reliable and durable prints,
  • all in one desktop case.

  Cons:

  • expensive,
  • metal filament spools are expensive.

  Onyx One prints out of durable metal, but the parts are actually carbon fiber. The main reason for choosing this technology is that although powdered metal filaments are available, they instantly destroy extruder nozzles, making the production of metal objects prohibitively expensive. Markforged solves this problem with a best-in-class desktop solution. So if you're looking for durable and reliable parts, this printer should be on your list. Just remember that a spool of filament can be quite expensive.

  Creality Ender 3

  Best Budget FDM 3D Printer

  Price: $223.
  Print volume: 220x220x250 mm.
  Layer thickness: 100 µm.

  Pros:

  • high quality components,
  • ease of use.

  Cons:

  • open chassis,
  • The typing sound can be quite loud.

  Ender's range of 3D printers is known for its superior performance at an affordable price. And Ender 3 is a perfect example of this. At this price, you would think that Black Friday lasts all year round. Creality has somehow managed to inject some of the highest quality components into Ender 3. The printer comes in kit form, which may not be to everyone's liking, but the assembly process actually gives you a good idea of ​​how the printer works and can help with troubleshooting if there are any in the future.

  Formlabs Form 3

  Best SLA Printer

  Price: $3499.
  Print volume: 145x145x185 mm.
  Layer thickness: 15 µm.

  Pros:

  • easy replacement of material cartridges,
  • no layer visibility.

  Cons:

  • expensive,
  • additional costs for obtaining a medical version.

  The Formlabs Form 3 and its predecessor the Form 2 set the benchmark for SLA printers (3D printing technology based on the layer-by-layer curing of a liquid material under the action of a laser beam). And the FormLabs Form 3 is by far the best printer on the market. This is a rather expensive product, but the quality of the results speaks for itself. Products are obtained with invisible layers, and the printer itself is equipped with a system that allows you to remove the finished product without the use of cutters. In addition to the impeccable print quality, the big advantage here is the ease of use. Changing media is as easy as replacing a cartridge on a conventional printer. For a little more, you will have access to biomaterials for use in dentistry and medicine. Oh, and the PreForm software is simple and intuitive too.

  3Doodler

  Best Portable 3D Printer

  Price: $49.99

  Pros:

  • you can take it anywhere,
  • no print volume limit.

  Cons:

  • expensive consumables,
  • print quality is up to you.

  One of the biggest limitations for 3D printing is the fixed volume. But since 3Doodler is a 3D printing pen, here you can print projects of any size. The cost of consumables can be quite high, especially if you are trying to model a car in 1:1 scale. What's more, it's fantastic fun to pick up a pen from a table top and draw lines in the air with plastic ink. The threads come in different colors, so you can consider it an added plus. But the downside is that you will have to rely only on yourself for printing accuracy, since the extruder is entirely in your hands, and not on rails. Several models are available, including 3Doodler Start (for kids) and a Pro version.

  EasythreeD K5

  Best budget option, safe for kids

  Price: $99.99.
  Print volume: 80x80x100 mm.
  Layer thickness: 100-400 µm.

  Pros:

  • affordable entry point to 3D printing,
  • fun and safety for kids.

  Cons:

  • tiny build platform,
  • medium print quality.

  It's hard not to love the EasythreeD K5 for its attractive looks and ease of use.

  ---

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