Metal 3D Printer Product List and Ranking from 11 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Metal 3D Printer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. エイチ・ティー・エル HTL(エイチティーエル) Tokyo//Trading company/Wholesale
  2. DOHO 本社 Tokyo//Trading company/Wholesale
  3. 3D Printing Corporation Kanagawa//others
  4. 4 マークフォージド・ジャパン Tokyo//others
  5. 5 東金属産業 本社・沼津工場 Shizuoka//Other construction industries
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Metal 3D Printer Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. Explanation: Laser Powder Bed Fusion (LPBF) Metal 3D Printer エイチ・ティー・エル HTL(エイチティーエル)
  2. Metal 3D Printing by Togane Metal Industry Realizing Complex Shapes 東金属産業 本社・沼津工場
  3. [Case Study] Guhring UK マークフォージド・ジャパン
  4. Introduction of Exhibits at JIMTOF2024 - Part 3 DOHO 本社
  5. Directional Energy Deposition Method Metal 3D Printer RPMI 222 XR エイチ・ティー・エル HTL(エイチティーエル)

Metal 3D Printer Product List

1~15 item / All 51 items

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Metal 3D Printer [Wayland Calibur3] Electron Beam

Metal 3D Printer [Wayland Calibur3] Electron Beam

Stable process using new "electron" beam technology. Free parameter open access. Capable of shaping diverse materials.

This is a metal 3D printer using electron beam powder bed technology that adopts neutral "electron" beam technology, enabling large-scale fabrication free of residual stress. It offers high-speed manufacturing, simplification of post-processing steps, and provides a more stable platform compared to other technologies. Thanks to its unique charge neutralization, it allows for stable fabrication processes without smoke generation, enabling the production of large parts without being affected by stress. It is capable of 3D printing with a variety of metals and alloys, including Ni alloys, Ti alloys, Cu alloys, CoCr alloys, pure copper, copper alloys, hard metals (Vibenite 280/290), and high melting point metal materials. With fewer necessary post-processing steps, it allows for short and energy-efficient manufacturing. Advanced in-process monitoring and control promote the development of a wide range of applications.

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Directional Energy Deposition Method Metal 3D Printer RPMI 222 XR

Directional Energy Deposition Method Metal 3D Printer RPMI 222 XR

Shape size: X 600 mm × Y 600 mm × Z 600 mm + tilt and rotating table.

Directed Energy Deposition (DED) Metal 3D Printer RPMI XR series features the "smallest" size RPMI 222 XR, which ensures a build size of [X 600 mm × Y 600 mm × Z 600 mm]. With 5-axis control through X, Y, Z + tilt and a rotating table, it allows for free-form shaping, part repair, and cladding (build-up) with ease.

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Directional Energy Deposition Method Metal 3D Printer 557XR 222XR

Directional Energy Deposition Method Metal 3D Printer 557XR 222XR

Proven track record of domestic implementation in Japan. 557XR maximum build size: [X 1500 mm × Y 1500 mm × Z 2100 mm]

Directed Energy Deposition (DED) Metal 3D Printer RPMI XR Device Series RPMI 557XR, RPMI 222 XR. RPMI 557 XR Build Size [X 1500 mm × Y 1500 mm × Z 2100 mm] RPMI 222 XR Build Size [X 600 mm × Y 600 mm × Z 600 mm] With 5-axis control through X, Y, Z + tilt and rotating table, free-form fabrication, part repair, and cladding (build-up) are possible.

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Metal 3D Printer [AconityMIDI]

Metal 3D Printer [AconityMIDI]

The second process chamber can optionally add preheating at 1200°C.

AconityMIDI is a new approach by Aconity3D aimed at a flexible production system. This system, which can be equipped with a second process chamber as an option, allows for the preparation of the next setup to proceed simultaneously while the main system is still in production, saving time. Additionally, this system can also optionally include process monitoring or high-temperature preheating up to 1200°C. Like all Aconity3D devices, the AconityMIDI device is equipped with the control software AconitySTUDIO, allowing Aconity3D service engineers to remotely access all relevant process parameters and machine components, enabling timely support for customers.

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Metal 3D Printer [AconityMINI]

Metal 3D Printer [AconityMINI]

Entry-level lab system. By utilizing the Φ55mm reduction component (optional), process development is possible even with a small amount of powder material!

AconityMINI is an entry-level lab system from Aconity3D. The build space can be reduced from a standard Φ140mm to Φ55mm, and this system, which provides complete access to all relevant process parameters, is designed for efficient materials research. Furthermore, this system allows for flexible configuration of the equipment by selecting optional features such as preheating, process monitoring, and laser output to best meet the customer's needs. Like all Aconity3D devices, the AconityMINI is equipped with the control software AconitySTUDIO, which allows Aconity3D service engineers to remotely access all relevant process parameters and machine components, providing timely support to customers.

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Explanation: Laser Powder Bed Fusion (LPBF) Metal 3D Printer

Explanation: Laser Powder Bed Fusion (LPBF) Metal 3D Printer

This is a schematic diagram explaining the laser powder bed fusion method (laser powder bed process) for metal 3D printers!!

"What is the Laser Powder Bed Fusion (LPBF) method?" For those in charge of gathering information on metal 3D printers, we provide an explanatory diagram of the Laser Powder Bed Fusion method! A series of operations is repeated for layered manufacturing: the recoater deposits powder, the laser irradiates to melt and solidify the powder, the build stage descends, the powder reservoir rises, and again, the recoater deposits powder. Excess surrounding powder from the recoater's deposition operation falls into a collection tank through the overflow opening and is sieved for recycling during the manufacturing process. *The diagram is based on Aconity3D's equipment and may not necessarily apply to all laser powder bed fusion metal 3D printers currently sold by various manufacturers.

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Directional Energy Deposition (DED) Metal 3D Printer

Directional Energy Deposition (DED) Metal 3D Printer

What is directional energy deposition method? What is DED? Let me explain it simply!

"What is Directed Energy Deposition (DED)?" We provide an explanatory diagram of Directed Energy Deposition (DED) for those responsible for gathering information on metal 3D printers! Directed Energy Deposition involves spraying metal powder into a melt pool created by a laser heat source, moving the melt pool along with the laser head, and repeatedly melting and solidifying to create a layered structure. Unlike typical metal 3D printers that have a powder bed, it fixes the base plate or pipes on a table with tilt (90°) and rotation (360°) functions for manufacturing. 1. Free-form manufacturing 2. Free-form manufacturing of complex shapes 3. "Additive" manufacturing to conventional machined parts 4. "Build-up" repairs (+ regrinding*) for worn-out parts (*The diagram is based on equipment from RPM Innovations and may not necessarily apply to all metal 3D printers using Directed Energy Deposition currently sold by various manufacturers. Please note.)

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[Explanation] Electron Beam Powder Bed Melting Method Metal 3D Printer

[Explanation] Electron Beam Powder Bed Melting Method Metal 3D Printer

What is the electron beam powder bed fusion method (powder bed fusion)? What is EB-PBF? Let me explain it simply!

"What is Electron Beam Powder Bed Fusion (EB-PBF)?" "What is EB-PBF?" Let me explain briefly! We provide a schematic explanation of Electron Beam Powder Bed Fusion (EB-PBF) for those in charge who have started gathering information on metal 3D printers! The process involves powder supply by a powder dispenser, powder deposition by a recoater (forward motion), vertical movement of the build stage and the recoater's excess powder passing motion, melting and solidification of the powder by electron beam irradiation, and powder deposition by the recoater (return motion). This series of actions is repeated to create layered structures. The vertical movement of the build stage and the recoater's excess powder passing motion help save powder and reduce waste. *The schematic is based on equipment from Wayland Additive and may not necessarily apply to all electron beam powder bed fusion (EB-PBF) metal 3D printers currently sold by various manufacturers.

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Metal 3D printer

Metal 3D printer

The key to the future, innovative creativity and efficiency, next-generation manufacturing solutions.

Accelerate your business with revolutionary metal 3D printers. They can precisely reproduce complex designs and quickly manufacture robust products. Improve the speed from research to product development and strengthen your competitiveness. Streamline the production of custom products and prototypes, creating new revenue opportunities. Achieve cost reductions with sustainable manufacturing processes. Future-oriented technology realizes visions and drives innovation. Respond to the needs of the times and establish leadership in an evolving business environment.

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Metal 3D Printing by Togane Metal Industry Realizing Complex Shapes

Metal 3D Printing by Togane Metal Industry Realizing Complex Shapes

Realizing free modeling through metal additive manufacturing! Proposing lightweight and high functionality.

The "Metal 3D Printing" proposed by Toh Metal Industry enables weight reduction and high rigidity without changing the material, thanks to topology optimization technology. Through additive manufacturing using metal 3D printers, we achieve complex shapes that were impossible with traditional methods such as machining, enhancing the functionality of parts. From the design consideration stage of incorporating 3D printing methods, we will propose ways to realize the high functionality of parts. 【Features】 ■ Weight reduction through topology optimization technology - Lightweight and high rigidity without changing the material ■ Creation of complex shapes - Achieving complex shapes that were impossible with traditional methods such as machining ■ Internal piping (heat & cool mechanism) structure - Realizing free piping within the structure ■ We are also actively working on accommodating new materials. *For more details, please refer to the catalog or feel free to contact us.

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"3D Printing in the World: Latest Industry Report" (Published in 2023)

"3D Printing in the World: Latest Industry Report" (Published in 2023)

This is a report that investigates the market size forecasts for various 3D printers and materials in the world by 2025, as well as the strategic trends of material manufacturers and business aspects.

■Issued: October 30, 2023 This report primarily investigates companies involved in the business and technology of 3D printers worldwide. It is a report that connects to next-generation business opportunities with an eye on future developments. 【Features of this report】 ➢ An industry analysis of parts adopted in engineering plastics such as PC, PA, PET, and PTEG. ➢ Strategies of material manufacturers developing and proposing medical and welfare materials used in 3D printers. ➢ The global market for 3D printing materials is projected to be ● billion yen in 2025, exploring trends among material manufacturers. ➢ The global market size for metal printers is expected to be ● billion yen in 2025, with metal materials projected to be ● billion yen. ➢ The global market for bio 3D printers is forecasted to be ● billion yen in 2025, with bio inks at ● billion yen. ➢ The global market for dental 3D printers is expected to be ● billion yen in 2025, with the materials used projected at ● billion yen. ➢ Strategies of companies focusing on ceramics 3D printers, along with developments in materials and applications of interest. ➢ Trends in materials such as TPU, silicone, graphene, HIPS, quartz glass, and support materials are introduced. ➢ Investigated the background and methods of adopting metals like copper, aluminum, and titanium in metal 3D printers.

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Wire DED method metal 3D printer, Meltio M450

Wire DED method metal 3D printer, Meltio M450

A metal 3D printer that is safe and easy to shape.

The Meltio M450 is equipped with everything needed for a metal 3D printer, making it user-friendly and allowing anyone to start printing right away. The metal wires used are compatible with various materials, including ready-made materials like welding wire, stainless steel, and titanium. It can produce small to medium-sized prints with strength equivalent to forged products, making it ideal for research on bimetallic products. It offers high safety without the need for peripheral equipment or protective gear with strict installation requirements, making it recommended for companies and educational institutions like universities that are introducing metal 3D printers for the first time. Our factory also offers a valuable opportunity to experience actual machine demonstrations and handle parts that have been printed. Please apply here: https://www.3dpc.co.jp/factory-tour

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Large metal 3D printer with wire DED method that can be used immediately after installation.

Large metal 3D printer with wire DED method that can be used immediately after installation.

A large metal 3D printer that eliminates the need for preparation processes after installation and is ready to use immediately.

The "Meltio Robot Cell," equipped with all the necessary ancillary equipment for operation, has arrived. This large metal 3D printer using the DED method can create and repair parts and products with strength equivalent to forged items, as well as perform cladding. It is expected to solve many challenges, including reducing manufacturing time, addressing labor shortages, and cutting costs. Our factory offers a valuable opportunity to experience the actual machine and handle parts that have been produced. Please apply if you are interested. - Apply here: https://www.3dpc.co.jp/factory-tour

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[Information] 3D Printing with Both Composites and Metals

[Information] 3D Printing with Both Composites and Metals

We address diverse challenges in the manufacturing field through 3D printing with both composite materials and metals.

High-strength composite material 3D printing and metal 3D printing are both highly valuable methods for producing parts. Both can individually address a wide range of use cases in manufacturing environments, but the mutual reinforcement of both printers leads to the realization of intelligent solutions. This document introduces several methods to rapidly improve manufacturing processes by leveraging the complementary technologies of both printers. [Contents] ■ Metal and high-strength composite materials - which one to use ■ Complex metal parts - the need for 3D printed fixtures ■ Printing metal parts to be inserted into composite material tools ■ Using suitable materials that meet the needs of jigs and tools *For more details, please refer to the PDF document or feel free to contact us.

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[Column] Flow of 3D Modeling and Preparations

[Column] Flow of 3D Modeling and Preparations

Remove moisture from the materials and feed them into the equipment! Introducing the preparations, including maintenance.

This time, we will introduce the "preparation" process in the flow of 3D modeling. In the SLM method, where a laser is irradiated onto a layer of metal powder to repeatedly melt and solidify, it is important to use high-quality metal powder. We handle five types of metal powder in our modeling services. We are also expanding our lineup through networks with ZRapid and partner companies for materials not available at 3D Factory. *For detailed content of the column, you can view it through the related links. Please feel free to contact us for more information.

  • Printer

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