We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for 3D Printer.
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3D Printer Product List and Ranking from 289 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

3D Printer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. システムクリエイト Osaka//Industrial Machinery
  2. null/null
  3. グーテンベルク Tokyo//Industrial Machinery
  4. 4 ホッティーポリマー Tokyo//Resin/Plastic
  5. 5 ミマキエンジニアリング Nagano//Industrial Electrical Equipment
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3D Printer Product ranking

Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.

  1. 3D Printer for Manufacturing Sites 'GX-1000 Series'
  2. High-Precision 3D Printer AGILISTA Series
  3. Industrial 3D Printer 'G-ZERO MP1' グーテンベルク
  4. 4 Compact 3D printer "G-ZERO" that can be placed on a desk. グーテンベルク
  5. 5 3D Printer for Solid Dosage Form Manufacturing M3DIMAKER HIGUCHI INC.

3D Printer Product List

691~705 item / All 901 items

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Form 4L

Form 4L

Evolution from Form 3 series, new large-format resin printer.

The Formlabs Form 4 series 3D printer is a very user-friendly 3D printer suitable for a wide range of users, from beginners to advanced users. The operation method, as well as the setup for printing, is automatically handled by Formlabs' proprietary software, making it easy for beginners to use. The build size is also large, capable of printing objects up to the size of a car steering wheel. Additionally, not only the 3D printer but also the materials and post-processing machines are managed exclusively by Formlabs, resulting in fewer failures during printing.

  • Other machine tools

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Bambu Lab H2D

Bambu Lab H2D

Supports high-speed, multi-color 3D printing with multiple materials using a dual nozzle.

Bambu Lab H2D The Bambu Lab H2D features dual-core printing: creating multi-color shapes with materials of different properties. It allows for multi-material printing: completing composite prints with soft and hard materials in one go at a low cost. It efficiently performs multi-color printing: creating vibrant multi-color shapes quickly and accurately. Additionally, you can expand its functionality with optional features such as laser engraving, digital cutting, and pen drawing (using respective module add-ons). By using the AMS (Automatic Material System) 2 Pro, you can automate filament loading, unloading, and spool switching, enabling continuous printing.

  • Other machine tools

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FABRIAL R filament

FABRIAL R filament

Soft and supple, a material that conforms to the skin. Safety has also been confirmed through biocompatibility testing.

This product is a filament made from a material that has biocompatibility and flexibility. It is a special elastomer (TPE) that excels in flexibility, abrasion resistance, and low water absorption, and its safety has been confirmed through biocompatibility testing (in accordance with ISO 10993), which has a proven track record in the medical field. We offer it in a natural color. 【Features】 ■ Soft and supple ■ Adapts well to the skin ■ Excellent flexibility, abrasion resistance, and low water absorption *For more details, please refer to the PDF document or feel free to contact us.

  • others

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Commissioned Modeling: NCI 3D Printer Output Service

Commissioned Modeling: NCI 3D Printer Output Service

We provide a wide range of modeling services through collaboration with many partner companies.

NCI Sales Co., Ltd. offers the "NCI 3D Printing Service." We provide a variety of 3D printing methods, including Fused Deposition Modeling, Stereolithography, Selective Laser Sintering, and Inkjet, enabling a wide range of shapes. We support printing with over 20 materials, including PLA, ABS, patented functional resins, and biodegradable resins. With no need for molds, we can create prototypes or final products starting from just one piece, leading to time savings and cost reductions compared to traditional methods. 【Features】 ■ Four types of 3D printing methods: Fused Deposition Modeling, Stereolithography, Selective Laser Sintering, and Inkjet ■ Capable of a wide variety of shapes ■ Supports printing with over 20 materials ■ Prototypes or final products can be created from just one piece ■ We can suggest suitable shapes and materials based on your application *For more details, please refer to the PDF document or feel free to contact us.

  • Contract manufacturing

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[Technical Introduction] High-strength Aluminum Alloy for Metal 3D Printers

[Technical Introduction] High-strength Aluminum Alloy for Metal 3D Printers

It demonstrates a high tensile strength of about 400 to 500 MPa without causing distortion!

At JAMPT, we are working on utilizing a new aluminum alloy powder for metal 3D printers in new applications through additive manufacturing, based on a patent implementation agreement. In the realm of aluminum alloy powders for metal 3D printing, the Al-10%Si-0.4%Mg alloy is widely known. The newly developed alloy with added Mn has been confirmed to exhibit high tensile strength of around 400-500 MPa without causing distortion. For the manufacturing process, a laser-based metal 3D printer is used, and there is no need to perform the conventional T6 treatment (solution treatment at 530°C ⇒ water quenching ⇒ aging). 【Chemical Composition (%)】 ■Si: 7 ■Mg: 0.7 ■Fe: ≦0.3 ■Mn: 1.5 ■Al: bal. *For more details, please refer to the PDF document or feel free to contact us.

  • alloy

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Introduction to Metal 3D Printers

Introduction to Metal 3D Printers

We propose the optimal 3D printing solution from our extensive lineup of metal 3D printers!

Our company is the largest metal 3D printer technology service provider in the country, owning a wide variety of metal 3D printers (8 units). We offer contract manufacturing services, product development support services, and material development support services, utilizing the latest 3D printer technology to meet the diverse needs of customers considering new initiatives. We have state-of-the-art metal 3D printers using electron beam and laser methods, capable of handling a wide range of materials including copper, aluminum, titanium, nickel alloys, stainless steel, maraging steel, and SKD materials. ■ Electron Beam Method (EB-PBF): 3 units ■ Laser Beam Method (LB-PBF): 4 units ■ Laser Deposition Method (LB-DED): 1 unit

  • 3D Printer

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Comparison of Features between Electron Beam and Laser Beam Methods in Metal 3D Printing

Comparison of Features between Electron Beam and Laser Beam Methods in Metal 3D Printing

Comparing the output and layer thickness of the "electron beam method" and the "laser beam method"!

Our company offers contract manufacturing services using metal 3D printers. In metal 3D printers that use metal powder, there are two types of heat sources for melting the powder: "electron beam" and "laser beam." The "electron beam" has a higher output compared to the "laser beam," resulting in faster manufacturing speeds. In the "electron beam" method, a pre-sintered state is created to prevent the charging of metal powder, and since it is manufactured at high temperatures, there is less residual stress after manufacturing. This also reduces distortion and cracking due to internal stress, and less support material is required. In the "laser beam" method, smaller powder particle sizes are used, which results in slower manufacturing speeds, but it excels in surface roughness of the manufactured products and is suitable for creating relatively fine structures. 【Features】 ■ Electron Beam Method - Fast manufacturing speed - Requires less support material, providing excellent cost competitiveness - Almost no residual stress occurs after manufacturing, suppressing distortion and cracking due to internal stress ■ Laser Beam Method - Uses powder with small particle sizes - Extremely excellent surface roughness of the products, suitable for creating fine structures *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer

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Manufacturing of PREP powder for metal 3D printers

Manufacturing of PREP powder for metal 3D printers

We are producing metal 3D printer powders with high sphericity, no satellites, and no gas defects using the Plasma Rotating Electrode (PREP) method.

Our company manufactures PREP powder for metal 3D printers. PREP powder for metal 3D printers is produced using the Plasma Rotating Electrode Process (PREP) and is characterized by "high sphericity," "absence of satellites," and "no gas defects within the powder." Objects created with PREP powder demonstrate high fatigue strength even without HIP treatment or heat treatment, confirming a reduction in build time and costs compared to conventional powders. Currently, the use of simulations in metal 3D printing is advancing, but simulations assume a 100% sphericity for the material powder. Conventional atomized powders have lower sphericity, leading to discrepancies between simulation results and actual build outcomes. However, with PREP powder, which has nearly 100% sphericity, this concern is eliminated. For specific data, please refer to the downloadable materials.

  • Other metal materials

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Manufacturing of heat sinks using metal 3D printers.

Manufacturing of heat sinks using metal 3D printers.

You can create heat dissipation materials with free shapes using high thermal conductivity materials (copper, aluminum) with a metal 3D printer!

Our company manufactures heat sinks using metal 3D printers. Heat sinks are mechanical components designed for heat dissipation and absorption. We can quickly respond to prototype requests and subtle shape changes during the prototyping stage. We offer a variety of materials, including pure copper with an overwhelmingly high thermal conductivity, relatively lightweight aluminum alloys with high thermal conductivity, and intermediate copper alloys. Please consider the production of high-performance heat sinks utilizing thin plate fin structures and lattice structures to increase specific surface area. For more details, please refer to the downloadable materials.

  • Prototype Services

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[Coronavirus Measures] Please utilize high antibacterial pure copper through metal 3D printing.

[Coronavirus Measures] Please utilize high antibacterial pure copper through metal 3D printing.

By applying a metallic 3D coating on the surface of pure copper instruments that come into contact with the human body, we can eliminate the coronavirus!

Our company specializes in manufacturing and shaping using pure copper. It has been confirmed that the coronavirus attached to pure copper dies at a rate of 96% within 2 hours and over 99% within 5 hours. Please refer to the downloadable materials for specific data. Metals like stainless steel, which are used in many instruments, do not have this effect. Pure copper is a metal with high reflectivity, making it difficult to shape appropriately as it reflects laser beams, but our company has made it possible to shape pure copper using electron beams. We are the only company in Japan capable of shaping pure copper. Please share your ideas for applying this to your products.

  • Steel

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[Examples of Metal 3D Printer Utilization] Molds

[Examples of Metal 3D Printer Utilization] Molds

By optimizing the cooling channels of molds with a metal 3D printer, the cooling effect can be enhanced, preventing sticking, extending lifespan, and improving the quality of molded products.

Our company, which provides contract manufacturing services using metal 3D printers, also specializes in the production of molds unique to metal 3D printing. We can design and arrange internal cooling channels that conform to mold shapes, which is impossible with traditional machining. Molds with high cooling efficiency will improve the production efficiency of your manufacturing line. We achieve low costs through a hybrid manufacturing method that produces the base material using traditional machining while adding complex shapes with a metal 3D printer. Please feel free to contact us for prototypes, delivery times, estimates, or any questions you may have. For more details, please refer to the downloadable materials.

  • 3D Printer

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Metal 3D printers can create extremely fine lattice structures.

Metal 3D printers can create extremely fine lattice structures.

Please consider the use of metal 3D printers for lightweighting heat dissipation and heat absorption materials (heat sinks/heat exchangers) and components (topology optimization).

Our company specializes in the creation of extremely fine lattice structures using metal 3D printers. We are capable of producing finer lattice structures compared to the standard lattice structures equipped in metal 3D printers. With an increased specific surface area, reactivity and heat dissipation/absorption properties are enhanced, so please consider utilizing this for your heat sinks. Applications for weight reduction through topology optimization/DfAM are also possible. For specific lattice structures (wire diameter, pitch), please refer to the downloadable materials.

  • Prototype Services

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Examples of using metal 3D printers in jigs and tools.

Examples of using metal 3D printers in jigs and tools.

By utilizing metal 3D printers, we achieved weight reduction of fixtures through the use of lightweight steel types and a hollow structure. We were also able to improve processing efficiency and safety.

As a jig for NC lathes, we proposed the use of lightweight and high-strength titanium alloy for metal additive manufacturing to customers who have previously used iron-based materials. By adopting a hollow structure, we achieved a 50% reduction in weight, which increased the rotation rate of the NC lathe by 20%, resulting in a 15% improvement in productivity. Furthermore, the reduction in jig weight allowed operators to handle it with one hand, enhancing both safety and work efficiency. Your jigs may also expand into new possibilities by utilizing metal 3D printing. Please feel free to contact us for prototypes, delivery times, estimates, or any questions you may have.

  • 3D Printer

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Support service for redesign utilizing metal 3D printers

Support service for redesign utilizing metal 3D printers

Possibilities expanding with designs based on 3D printing. If you are struggling with issues such as weight reduction, longevity, or high strength, please feel free to consult with us.

In Japan's additive manufacturing, we offer a "Design Review Support Service Utilizing Metal 3D Printers" in collaboration with Tokyo R&D Co., Ltd. By designing with "DfAM (Design for Additive Manufacturing)" based on the premise of manufacturing with metal 3D printers that can create complex shapes in one piece, we contribute to "enhancing the added value of manufacturing" across various fields and industries. Even if you do not have a specific design proposal at this time, we can provide various ideas. Please feel free to consult with us. 【Examples of Benefits of Incorporating "DfAM"】 ■ Longevity: Achieving internal flow paths in molds with complex shapes that are difficult to create with cutting, improving cooling functions. ■ Increased Strength: Creating complex hardened coils in one piece, eliminating the need for brazing. ■ Improved Productivity: Reducing weight by reviewing the material and design of jigs, enhancing workability and productivity. ■ Weight Reduction: Achieving significant weight reduction and increased rigidity of automotive parts through topology optimization. ■ Customization: Enabling the economical production of products with different specifications, such as implants, all at once. ■ Improved Heat Dissipation: Enhancing the heat dissipation of automotive parts with complex shapes unique to metal 3D printers. *For more details, please refer to the PDF document.

  • Other Auto Parts

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Japan Layered Manufacturing Metal 3D Printers | Lineup

Japan Layered Manufacturing Metal 3D Printers | Lineup

Our company has a total of seven metal 3D printers using powder bed fusion electron beam and laser methods.

【Electron Beam Metal 3D Printers】 ■Arcam A2X ■Arcam Q20 ■Arcam Q20 Plus Compatible materials: Pure copper, titanium alloys, cobalt chrome, Inconel (nickel-based alloys), pure titanium, SUS316L, tungsten carbide 【Laser Metal 3D Printers】 ■Concept Laser M2 (First Generation) ■Concept Laser M2 (Fourth Generation/Dual Laser) ■Concept Laser XLINE 2000R (Large Metal 3D Printer) ■EOS M280 Compatible materials: Aluminum alloys, titanium alloys, pure titanium, copper alloys, Inconel, maraging steel, SUS Please refer to the related links for information on the build area and other details. Feel free to contact us for prototypes, delivery times, estimates, or any questions.

  • 3D Printer

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