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3D printer Product List and Ranking from 290 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.

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. 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 17, 2025~Jan 13, 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. Compact 3D printer "G-ZERO" that can be placed on a desk. グーテンベルク
  4. Comprehensive Catalog of Continuous Plating Processing ハイジェント
  5. 4 3D Printer for Solid Dosage Form Manufacturing M3DIMAKER HIGUCHI INC.

3D printer Product List

721~735 item / All 905 items

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3D printer "Multi Jet Fusion"

3D printer "Multi Jet Fusion"

Introducing 3D printers compatible with MJF, which boasts strength comparable to injection-molded products made from the same material!

Our company provides mass production support without molds using 3D printers, prototype manufacturing, and novelty goods support. This page introduces the 3D printer "Multi Jet Fusion" available for use with the DMM.make 3D printing service. The "Multi Jet Fusion" is a 3D printer suitable for the production of industrial parts using the jet fusion method. It supports the material "MJF," which boasts strength comparable to injection-molded products made from the same material. It can create objects within a range of 380x284x380mm. 【Supported Material】 ■ MJF * The works created with this printer and the buildable range are detailed in the PDF materials. Additionally, we have examples and CAD data samples available for individual inquiries. Please feel free to contact us for more details. ■ Use Cases We utilize 3D CAD data for a wide range of applications, including as an alternative method for extrusion molding, casting, machining, injection molding, molds, and formwork, as well as for forming small parts of IoT products and finished goods.

  • 3D Printer

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3D printing material "Rubber-like"

3D printing material "Rubber-like"

It is suitable for the production of prototypes of industrial parts and silicone products. It can be manufactured directly from data and is suitable for the production of final products.

It is a soft rubber-like or silicone-like material with a Shore A hardness of 50A, outputted from Form3. It is resistant to bending, stretching, and compression, and can return to its original shape without cracking even under those conditions. It is widely used for prototypes of silicone parts, shock-absorbing components, jigs for workpieces, end effectors for pick-and-place robots, and prototypes of wearable devices. It is produced using the LFS method, which is a high-quality printing method within SLA, with a layer pitch of 0.1mm, resulting in a smooth surface finish with less noticeable layering.

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3D Printing Material: PP (SLS)

3D Printing Material: PP (SLS)

It is flexible and has high strength, with excellent toughness and chemical resistance. Due to the large work size, it is possible to create large parts as a whole without splitting them.

Preferred Genre → Industrial mockups Color → Yellowish white Price Range Estimate → Low Texture → Rough Hollow Structure → Possible. However, a hole with a diameter of at least 5mm is required to remove the material. Please also be aware that even if there is a hole, it may not be possible to manufacture due to the model's structure. Maximum Size That Can Be Formed → 480mm (height) × 480mm (width) × 400mm (depth)

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[Case Study] Injection molding with high precision for model production has been realized.

[Case Study] Injection molding with high precision for model production has been realized.

Seeking a 3D printer that can achieve injection molding with high precision for mold making.

Considering the limitations of home-use 3D printers and the precision of large sizes, we are considering outsourcing. We conducted an interview with Mr. Nakajima from the Graduate School of Information Science and Technology at the University of Tokyo regarding the introduction of DMM.make 3D printing! During the interview, we heard voices expressing the need for finer precision in the fabrication of large-sized 3D printers. Mr. Nakajima also shared his expectations for the manufacturing industry, which was very informative. If you have any questions or requests regarding the introduction of 3D printers, please feel free to contact us. ■ Use Cases We are utilizing 3D CAD data for a wide range of applications, including extrusion molding, casting, machining, injection molding, and as alternative methods for molds and formwork, as well as for shaping small parts of IoT products and finished goods.

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[Case Study] Utilizing 3D Printers to Transform Complex Internal Structures into Final Products

[Case Study] Utilizing 3D Printers to Transform Complex Internal Structures into Final Products

Using a 3D printer for parts with complex internal structures of small formula cars to create the final product.

We will introduce a case where the fundamental lightweighting and performance improvement of intake components mounted on small formula cars were achieved, along with the manufacturing technology and reliability to realize this. Complex hollow shapes were integrally molded without the use of jigs and utilized as final products. We spoke with TUAT Formula from Tokyo University of Agriculture and Technology, who participates in the "Student Formula Japan Competition" every year. ■Usage Examples We are utilizing 3D CAD data for a wide range of applications, including extrusion molding, casting, machining, and as alternative methods for injection molding, molds, and formwork, as well as for molding small parts of IoT products and finished products.

  • Circuit board design and manufacturing

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Collection of case studies on manufacturing methods using 3D printers [Free gift]

Collection of case studies on manufacturing methods using 3D printers [Free gift]

This is a collection of case studies featuring manufacturing methods using 3D printers.

This is a collection of case studies featuring manufacturing methods utilizing 3D printers. 【Consultation Details】 ■ TUAT Formula, Tokyo University of Agriculture and Technology They consulted DMM.make to design parts with complex internal structures for a small formula car using 3D CAD data and to incorporate them into the final product using a 3D printer. ■ Kishitec Co., Ltd. They are capable of creating 3D data from clay models and similar shapes, as well as reverse engineering. They handle the creation and output of high-precision models, jigs, measuring instruments, and industrial products. They consulted DMM.make for manufacturing prototypes of bicycle accessories using Jet Fusion. ■ Asmo Co., Ltd. The Panax division of Asmo Co., Ltd. plays a role in the innovative product development of its parent company, Soft99 Corporation, which continually surprises the market. They conduct product design, development, and engineering of resin products. They consulted DMM.make for the modeling from prototypes to final products. *For more details, please download the PDF or contact us.

  • Contract manufacturing

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[Case Study of Corporate Implementation] Utilizing 3D Printers for Robot Attachments

[Case Study of Corporate Implementation] Utilizing 3D Printers for Robot Attachments

Utilization of a 3D printer for the attachment and wheel parts of a robot aimed at fully automated fruit cultivation in a plant factory.

We spoke with Mr. Ichikawa from HarvestX Inc., which is engaged in research and development of various robots aimed at fully automated cultivation of fruits in plant factories, contributing to a stable food supply and pioneering the future of agriculture with robots for plant factories. They consulted DMM.make to utilize a 3D printer for the robot's attachments and wheel parts.

  • Other industrial robots

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3D printing material "Stainless Steel 17-4PH"

3D printing material "Stainless Steel 17-4PH"

It is a stainless steel material with characteristics such as high strength, high hardness, excellent corrosion resistance, heat treatability, and weldability! It is used for high-strength components with corrosion resistance requirements.

This is a martensitic precipitation hardening stainless steel characterized by high strength, high hardness, excellent corrosion resistance, heat treatability, and weldability. Compared to the same stainless material, SUS316L, it has twice the tensile strength but is characterized by lower elongation at the breaking point. It is suitable for the fabrication of durable metal products and lightweight designs, such as valves, shaft types, steam turbine components, and high-strength parts with corrosion resistance requirements. In 3D printing, it offers greater design freedom compared to conventional methods and is also suitable for mass production. It is fabricated with a layer pitch of 0.04mm.

  • stainless

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3D printing material "High-Precision Acrylic" MJT

3D printing material "High-Precision Acrylic" MJT

It is an acrylic material that allows for high-precision molding!

This is a material called Visijet Crystal, produced with the ProJet 3500HD Max. It is an acrylic material that allows for the highest precision modeling among the materials we handle. With a layer thickness of 29μm, it is ideal for creating small models as it reproduces fine details accurately. Tests have been conducted in compliance with the following standards and have passed: USP Class VI

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3D printing material "HPS Titanium" DMLS

3D printing material "HPS Titanium" DMLS

Due to its general titanium material properties, it can be post-processed and is ideal for many applications such as aerospace and medical fields!

This is a titanium material called EOS Titanium TiCP, produced using the EOSINT M280. It has the typical material properties of titanium, allowing for post-processing, making it ideal for various applications such as aerospace and medical. Although titanium is a difficult metal to machine, 3D printing offers high design freedom and the possibility of mass production. It is built with a layer pitch of 0.03mm. Tests have been conducted in compliance with the following standards, and it has passed: - REACH - RoHS

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3D printing material 'PA12' MJF

3D printing material 'PA12' MJF

A nylon material suitable for mass production with excellent rigidity!

This is a nylon material called HP 3D High Reusability PA 12, which is excellent in rigidity and suitable for mass production, made with the HP Jet Fusion 4200. Compared to SLS, the MJF method produces objects without anisotropy, offering high strength and dimensional accuracy, making it usable from prototypes to final products. It also features chemical resistance to oils, greases, aliphatic hydrocarbons, and bases. It is built with a layer pitch of 0.08mm, allowing for text representation as well.

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[Free Sample Available] 3D Print Material "MJF" Sample Set

[Free Sample Available] 3D Print Material "MJF" Sample Set

This is a sample of the 3D printing material "MJF"!

DMM.make's 3D printing service provides comprehensive support for a wide range of manufacturing, from mass production assistance to prototyping, without the use of molds. We offer a variety of materials, from those with strength comparable to injection molding to softer materials like rubber and silicone. We have received feedback from many companies expressing, "We want to introduce 3D printing technology, but we don't know where to start or what materials are optimal." DMM.make has been providing services since the dawn of 3D printing technology in Japan. We promise to support you in realizing your ideas. First, we will discuss your intended use, requests, and budget in a meeting, and we will also provide samples free of charge. Please feel free to contact us. *The sample plates of the materials listed below (a total of 3) are included. PA12W White | MJF PA12 | MJF PA11 | MJF

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[Free Sample Available] 3D Print Material "SLA" Sample Set

[Free Sample Available] 3D Print Material "SLA" Sample Set

This is a sample set of 3D printing material "SLA"!

DMM.make's 3D printing service provides comprehensive support for a wide range of manufacturing, from mass production assistance to prototyping, without the use of molds. We offer a variety of materials, from those with strength comparable to injection molding to softer materials like rubber and silicone. We have received feedback from many companies expressing, "We want to introduce 3D printing technology, but we don't know where to start or what materials are optimal." DMM.make has been providing services since the dawn of 3D printing technology in Japan. We promise to support you in realizing your ideas. First, we will discuss your intended use, requests, and budget, and we will also provide samples free of charge. Please feel free to contact us. *The sample plates of the materials listed below (a total of 6) are included. Pro Resin for Prototyping | SLA Economy Resin | SLA Economy Pro Resin | SLA ABS-Like | SLA Clear Resin | SLA Tough Resin | SLA The holes and thickness change every 1 mm.

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Case Study: Agile Development of Rockets Made Possible with 3D Printer Utilization!

Case Study: Agile Development of Rockets Made Possible with 3D Printer Utilization!

The challenge of high costs associated with cutting metals and resins structurally is resolved by compressing delivery times and costs through DMM.make 3D print's contract manufacturing!

We heard from Mr. Yamagishi of Interstellar Technologies Inc., a private company engaged in the development, manufacturing, and launch services of rockets. Interstellar Technologies Inc. is well-remembered for being the first in Japan to reach space with a private rocket. In 2021, they launched two observation rockets, "Neji no Rocket (MOMO No. 7)" and "TENGA Rocket (MOMO No. 6)," both of which successfully reached outer space, and parts created using DMM.make were installed on them! We would like to introduce a case where the use of 3D printing enabled agile development with short lead times while maintaining design flexibility and keeping costs down.

  • 3D Printer

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3D printing material "High-Precision ABS-Like | HPS | LumiaX1"

3D printing material "High-Precision ABS-Like | HPS | LumiaX1"

High-strength engineering plastic with heat resistance HDT 60°C, high impact strength, and excellent surface finish. Suitable for tapping and drilling.

Henkel LOCTITE 3D 3843 BK, produced with the Lumia X1, is a high-strength engineering plastic that offers moderate heat resistance (HDT 60°C), high impact strength, and excellent surface finish. It is manufactured using the world's most advanced 3D printing technology, which combines multiple patented techniques known as HPS molding. Henkel LOCTITE 3D 3843 BK is suitable for tapping and drilling, making it ideal for various tools in production environments. It has undergone chemical resistance testing in accordance with ASTM D543*, demonstrating excellent chemical resistance. Additionally, outdoor accelerated weathering tests have been conducted in accordance with ASTM D4329* (Cycle A). When used in final products, it is recommended to conduct outdoor testing specific to the intended application. *ASTM D543: Samples immersed in different chemicals are stored at 22°C. Samples immersed in motor oil are stored at 50°C. *ASTM D4329: Cycle A (general use), QUV/se, UVA 340 nm, 0.89 W/m²-nm, after 8 hours of UV exposure at 60°C, followed by 4 hours of condensation at 50°C in the dark.

  • 3D Printer

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