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Metal 3D Printer Product List and Ranking from 31 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 17, 2025~Jan 13, 2026
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:Dec 17, 2025~Jan 13, 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. エイチ・ティー・エル HTL(エイチティーエル) Tokyo//Industrial Machinery
  3. マークフォージド・ジャパン Tokyo//Industrial Machinery
  4. 4 DOHO 本社 Tokyo//Trading company/Wholesale
  5. 4 3D Printing Corporation Kanagawa//Manufacturing and processing contract
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Metal 3D Printer Product ranking

Last Updated: Aggregation Period:Dec 17, 2025~Jan 13, 2026
This ranking is based on the number of page views on our site.

  1. Metal 3D Printer AVIMETAL MT-Series システムクリエイト
  2. Metal 3D Printer Digital Metal DM P2500 マークフォージド・ジャパン
  3. New standard metal 3D printer, Markforged Metal X 3D Printing Corporation
  4. 4 [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)
  5. 5 Improvement of cooling efficiency with AVIMETAL MT series for molds. システムクリエイト

Metal 3D Printer Product List

106~120 item / All 127 items

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3D Business Factory

3D Business Factory

We have a medium-sized metal 3D printer with an appropriate build area for parts manufacturing!

We would like to introduce our "3D Business Factory." Equipped with metal 3D printers and ancillary equipment from ZRapid, our experienced engineers handle design and modeling, and in collaboration with partner companies who are experts in processing, we support everything up to the final finishing. Additionally, we are always accepting visits to see the operational equipment. Please feel free to contact us when you need our services. 【Flow of 3D Modeling】 1. Design 2. Preparation 3. Modeling 4. Post-processing *For more details, please download the PDF or feel free to contact us.

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[Column] About SLM (Selective Laser Melting) Method

[Column] About SLM (Selective Laser Melting) Method

Introducing the molding method adopted by ZRapid, for which our company serves as the general agent!

Introducing SLM, which uses a laser as the heat source in the powder bed method, a mainstream technology in metal 3D printing. The powder bed fusion (PBF) method involves irradiating a layer of metal powder with a beam of light, causing it to sinter through the heat generated. By repeatedly melting and solidifying layer by layer, it creates a three-dimensional structure. While there are various fabrication methods, this one has a long history and is widely used. The powder bed method is divided into "Selective Laser Melting (SLM)" and "Electron Beam Melting (EBM)" based on the type of heat source used. *For more detailed information, please refer to the related links. Feel free to contact us for further inquiries.*

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[Column] The Flow of 3D Modeling and the Modeling Process

[Column] The Flow of 3D Modeling and the Modeling Process

The quality of the laser is important among the equipment that makes up a 3D printer!

This time, we will introduce the "modeling" process within the flow of 3D printing. Once the 3D data design and the preparation of materials and equipment are complete, the modeling can finally begin. We will also introduce the final confirmation work before operation. We check the sliced data read by the 3D printer and determine the layout of the products to be modeled on the substrate. By arranging them efficiently, many products can be modeled at once. Once this task is completed, the final modeling time will be confirmed. *For more details on the column, please refer to the related links. If you have any questions, feel free to contact us.

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[Column] The Process of 3D Modeling and Post-Processing Steps

[Column] The Process of 3D Modeling and Post-Processing Steps

Heat treatment to remove internal stress and the process of separating the product from the substrate!

This time, we will introduce the "post-processing" step in the flow of 3D modeling. After the modeling is complete, excess metal powder is removed, and the model is separated from the substrate. As a finishing touch, a blast treatment is applied. (For some models, heat treatment is performed before separating from the substrate.) Excess metal powder on the substrate is collected using the attached suction nozzle. The collected metal powder is sent to the powder module for reuse. *For more details on the column, please refer to the related links. If you have any questions, feel free to contact us.

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[Column] "KAIJIRUSHI" 115th Anniversary Design Exhibition

[Column] "KAIJIRUSHI" 115th Anniversary Design Exhibition

The main exhibit is products! We will also introduce metal 3D printed razors.

A hands-on product design exhibition held to commemorate the 115th anniversary of the global knife manufacturer "KAI Corporation." Products envisioned for the future based on "KAI's" new mission of "sharpness and gentleness," as well as new products with fresh perspectives that are set to be released, are on display. I heard that products we collaborated on through DOHO's modeling services would also be exhibited, so I visited the exhibition to experience it firsthand. *For more details on the column, please refer to the related links. Feel free to contact us for more information.

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Notice of Participation in the 'New Technology Creation Exchange Meeting 2024' on October 23-24

Notice of Participation in the 'New Technology Creation Exchange Meeting 2024' on October 23-24

We sincerely look forward to your visit at the Tokyo Tama Future Messe.

Thank you for your continued support. This is DOHO Corporation. We will be exhibiting at the "New Technology Creation Exchange 2024" held at Tokyo Tama Mirai Messe on October 23 (Wednesday) and 24 (Thursday)! https://tama-innovation.jp/event/?_fsi=bUVRh8ta&_fsi=4IPCq2xb This exhibition is only for companies that have received interview requests from major companies with technology needs. At our booth, we plan to showcase many samples and provide information about our metal 3D services. We will be available for consultations on the day of the event!

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Introduction of Exhibits for JIMTOF2024 - Part 3

Introduction of Exhibits for JIMTOF2024 - Part 3

Introduction to JIMTOF2024 Exhibits - Part 3: Case Studies of Metal 3D Printer Implementation

Thank you for your continued support. This is DOHO Corporation. We will be exhibiting at "JIMTOF2024," which will be held at Tokyo Big Sight from November 5 (Tuesday) to November 10 (Sunday)! Today, as part of our third announcement, we would like to introduce a section showcasing case studies of metal 3D printer implementations. We will highlight the case of "Wada Precision Dental Laboratory Co., Ltd.," known as one of Japan's largest dental laboratories and a pioneer in the dental technology industry! [Main Exhibition Content] - The process leading up to the introduction of metal 3D printers The first model was introduced using a 3D printer from another manufacturer, and last year, it was switched to the ZRapid 3D printer that we handle. This year, an additional unit was introduced, and medical device registration has also been completed. Why did we switch to the ZRapid 3D printer that we handle? We will share real customer feedback! - Display of dental technology samples You will be able to see samples that Wada Precision Dental Laboratory has actually produced.

  • Printing Machinery

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ZRapid Industrial Metal 3D Printer iSLM420DN/QN

ZRapid Industrial Metal 3D Printer iSLM420DN/QN

Industrial 3D Printer ZRapid iSLM420D Series Metal 3D Printer

The biggest feature is the double laser. Compared to the single laser type, the molding speed is 1.5 to 1.7 times faster. Additionally, the molding size is 2.25 times that of the iSLM280, allowing for the creation of larger parts. This model is ideal for the timing of expansions accompanying business growth. ■Minimal design that maximizes simplicity With a simple functional design that combines automatic and manual operations, it achieves significant cost reductions and high maintenance efficiency compared to fully automatic types. Furthermore, in terms of design, it avoids excessive molding and special materials, focusing on user-oriented manufacturing to deliver high functionality at the lowest possible price. ■High-level precision and durability in molding technology Equipped as standard with a 500W fiber laser from the highly regarded German company IPG. Additionally, instead of the conventional MIM method, it adopts the "SLM method," which melts and builds up metal powder, resulting in high product density and mechanical strength, with no shrinkage, ensuring excellent dimensional accuracy.

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Metal 3D Printer 'HBD 350'

Metal 3D Printer 'HBD 350'

Used in industries such as aerospace and maritime! A 3D printer with selectable output methods.

The "HBD 350" is a metal 3D printer using a powder bed fusion method. Depending on the intended use, you can choose between a single-user or dual-laser configuration, allowing for large outputs with a maximum side length of 40 cm. Additionally, by combining multiple nozzle systems, it enables high efficiency, high strength, high quality, and continuous production suitable for mold components. 【Features】 ■ Option to select output methods ■ Large output size ■ Multiple systems designed for efficiency *For more details, please refer to the PDF document or feel free to contact us.

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Improvement of cooling efficiency with AVIMETAL MT series for molds.

Improvement of cooling efficiency with AVIMETAL MT series for molds.

Metal 3D printer that improves mold cooling efficiency.

In the mold industry, the cooling efficiency of molds has become a crucial issue in achieving both product quality and productivity. Insufficient cooling can lead to product distortion and dimensional defects, resulting in reduced yield. Additionally, increased cooling time can cause delays in the production cycle, leading to higher costs. The AVIMETAL MT-Series significantly improves cooling efficiency by creating complex cooling channels within the mold, addressing these challenges. 【Application Scenarios】 - Design of cooling channels inside the mold - Optimization of cooling efficiency - Reduction of mold manufacturing time 【Benefits of Implementation】 - Improvement in product quality - Increase in productivity - Cost reduction

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Directional Energy Deposition Method Metal 3D Printer RPMI 557 XR

Directional Energy Deposition Method Metal 3D Printer RPMI 557 XR

Shape size: [X 1500 mm × Y 1500 mm × Z 2100 mm] "Largest" size in the RPMI XR series.

Directed Energy Deposition (DED) Metal 3D Printer RPMI XR series, featuring the "largest" size RPMI 557 XR. Build size [X 1500 mm × Y 1500 mm × Z 2100 mm]. With 5-axis control through X, Y, Z + tilt and rotating table, it allows for free-form fabrication, part repair, and cladding (build-up).

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[Demo Available] Metal 3D Printer 'LAMDA'

[Demo Available] Metal 3D Printer 'LAMDA'

Large aluminum alloy lamination! Since it is a self-designed product, including the optical section (head part), it can be fully customized.

LAMDA is a metal 3D printer using the DED method. It is equipped with a "Local Shield Nozzle" that suppresses oxidation during layering to the utmost limit, ensuring the quality of metal materials. The "Monitoring Feedback System" is adopted to monitor the conditions during layering with high-speed processing, enabling stable long-term shaping. 【Lineup】 ■LAMDA 200 ■LAMDA 500 ■LAMDA (for dedicated machines) *For more details, please download the PDF or feel free to contact us.

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What are the reasons for the limited adoption of metal 3D printers?

What are the reasons for the limited adoption of metal 3D printers?

Would you like to develop new products with designs (DfAM) that are possible only with metal 3D printers (additive manufacturing)?

The awareness of metal 3D printers is steadily increasing year by year, but it cannot be said that many companies in Japan are actually able to utilize metal 3D printers. As a general observation, while Japanese companies tend to consider the use of metal 3D printers as an extension of existing manufacturing methods, in Europe, the United States, and China, there is a mindset of designing and creating things that cannot be achieved with traditional methods through metal 3D printing (additive manufacturing). When comparing to traditional methods, the disadvantages of metal 3D printers are generally cited as follows: ■ Dimensional accuracy comparable to machining is not achievable (precision casting level) ■ Surface roughness is around Ra10 to 25 ■ (Depending on the size of the product) not suitable for mass production ■ Cost **Compared to our company that owns powder bed fusion (PBF) metal 3D printers. Instead of focusing on these disadvantages, it is important to concentrate on the advantages that can be enjoyed specifically because of metal 3D printers and to consider product development through new design (DfAM). We hope to assist you in this regard, so please feel free to consult with us first.

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Digital Metal: Its Process and Components of Manufacturing Costs

Digital Metal: Its Process and Components of Manufacturing Costs

Metal 3D printing creates products by layering materials from CAD data. This document introduces the elements of each process and the cost factors for part manufacturing.

Metal 3D printing, unlike traditional methods that use molds or cutting tools to carve out material from a solid block, directly shapes products by adding layers of material from CAD data. Additionally, Digital Metal's binder jetting (BJT) method differs from other methods such as laser techniques, as it does not melt the material during the entire process. Instead, it imparts the necessary characteristics of the final product during the sintering process, which occurs below the melting point of the material after shaping. This document introduces each step of the process and the factors affecting the cost of component manufacturing. The greatest benefits can be obtained by not viewing metal 3D printing as an extension of traditional methods, but by discovering products that can only be realized through metal 3D printing.

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ZRapid iSLM600QN/SN Large Industrial Metal 3D Printer

ZRapid iSLM600QN/SN Large Industrial Metal 3D Printer

Industrial Large-Scale 3D Printer "ZRapid iSLM600SN Series" - High Precision and High Output Metal 3D Printing Solution -

**Features** - Supports large-scale, high-precision molding (600×600×500mm) using PBF method - Equipped with six high-reliability 500W lasers from IPG - Compatible with a variety of materials such as SUS316L, AlSiMg10, and IN718 - Stable operation through real-time monitoring and automatic diagnostics - High-efficiency operation with powder circulation and reuse - Touch panel with excellent safety and operability, equipped with explosion-proof and dust collection functions - Minimal design taken to the extreme The simple functional design, which combines automation and manual operation, achieves significant cost reduction and high maintainability compared to fully automatic types. Furthermore, in terms of design, we avoid excessive molding and special materials, focusing on user-oriented manufacturing to deliver high-functionality at the lowest possible price. - Advanced precision and durability in molding technology Standard equipped with a 500W fiber laser from the highly regarded German company IPG. Additionally, by adopting the "SLM method," which melts and builds up metal powder instead of the conventional MIM method, the product achieves high density and mechanical strength, with no shrinkage, resulting in excellent dimensional accuracy.

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