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3D Printer Product List and Ranking from 152 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 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:Feb 04, 2026~Mar 03, 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. グーテンベルク Tokyo//Industrial Machinery
  3. null/null
  4. 4 ホッティーポリマー Tokyo//Resin/Plastic
  5. 5 日本積層造形 Miyagi//Manufacturing and processing contract
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3D Printer Product ranking

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. I measured the dimensions of the work created at each position! システムクリエイト
  2. Mitarepo: Challenging the limits of thin-walled reproduction with a powder sintering 3D printer! システムクリエイト
  3. I tried structuring a lattice and creating it with a 3D printer! システムクリエイト
  4. 4 I tried creating something with recycled ABS pellets! システムクリエイト
  5. 5 To avoid making mistakes when choosing a commercial 3D printer. グーテンベルク

3D Printer Product List

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Class fastest and highest precision 3D printer Quantum X shape

Class fastest and highest precision 3D printer Quantum X shape

The fastest and highest precision 3D printing device in its class. Combining unique technology based on two-photon polymerization (2PP), it achieves sub-micron precision and accuracy.

■Performance ● Achieves rapid prototyping with high precision and design flexibility through an easy-to-understand workflow ● Diverse printing materials: (from general to specialized applications) ● Open system compatible with custom-made and third-party materials ■Scale ● Nanoscale printing - Shape accuracy control down to a minimum of 100 nm in all spatial directions ● Microscale printing - Typical dimensions of 50 to 700 µm ● Mesoscale printing - Maximum dimension of 50 mm 【We provide software that makes execution of printing easy.】 ■DeScribeX Importing 3D CAD models to uploading print jobs can be done in just a few steps. ■GrayScribeX 2.5D Print Can be uploaded as a unique .nano file for the Quantum X system in just a few steps. ■Remote connection with nanoConnectX Using the remote access software nanoConnectX, you can start and monitor prints from the office. *For more details, please download the PDF or contact us.

  • Injection Molding Machine
  • 3D Printer

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3D printer × jig: Precision assurance is also possible through secondary processing!

3D printer × jig: Precision assurance is also possible through secondary processing!

Guarantees a precision of ±0.05 in machining after shaping.

By performing machining after shaping, the guaranteed accuracy improves. Dimensional tolerance ±0.05mm Surface roughness Ra1.6 to 3.2 Other secondary processing options available: blasting treatment, barrel polishing, chemical etching treatment *Black matte treatment for optical components is also possible.

  • Processing Contract
  • Contract manufacturing
  • 3D Printer
  • 3D Printer

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3D printer technology has finally become compatible with ceramics!

3D printer technology has finally become compatible with ceramics!

This is a ceramics 3D printer capable of handling high precision and ultra-complex shapes. We will assist you in developing products one step ahead!

This is a ceramics 3D printer capable of handling high-precision and ultra-complex shapes. We are here to assist you in leading product development! This is a proposal for those considering shapes that cannot be accommodated by traditional methods such as machining and mold forming for ceramic parts. As a "light curing type ceramics 3D printer," it achieves a very smooth finish with a one-step process that requires no post-processing. Since it employs a light curing method, it can also mold original materials provided by customers. **Features:** - No molds required - Complex shapes that are impossible with traditional methods - Hollow structures - No corner radii that cannot be achieved through machining - Fine shapes with layer pitch control at the micron level - Curing tests with unique customer materials. **Prototyping is always welcome!** Please feel free to contact us with any questions. If requested, we can also provide explanations via web meetings at any time.

  • Sensors
  • Capacitor
  • Other semiconductors
  • 3D Printer

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3D printer transparent light modeling

3D printer transparent light modeling

We provide comprehensive support from planning, design, and engineering to processing and printing (secondary processing).

This is an original design of "Klein's Bottle" created in-house. It is made without any support material.

  • Other Auto Parts
  • 3D Printer

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FUNMAT PRO 410-G2

FUNMAT PRO 410-G2

Industrial 3D printer compatible with super engineering plastics. An all-in-one model equipped with dual heads that can use all types of resin materials.

The "FUNMAT" series of 3D printers that can use "super engineering plastics," which have particularly excellent performance among engineering plastics. The FUNMAT PRO 410-G2 is an all-in-one model equipped with dual heads that can use all types of resin materials. The FUNMAT series is developed by the 3D printer manufacturer "INTAMSYS," specializing in 3D printing high-performance engineering plastics. It is an FDM 3D printer designed for the use of super engineering plastics, capable of stably printing large engineering plastics that have been difficult to shape due to issues like thermal shrinkage, making it a high-performance 3D printer. It is active in various industrial scenes such as aerospace, research and development, medical, and automotive industries. *For more details, please refer to the PDF materials or feel free to contact us.

  • 3D Printer
  • 3D Printer

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FUNMAT PRO

FUNMAT PRO

A large industrial 3D printer capable of solidly shaping large ABS and PC. For creating vehicle mock-ups and large jigs.

The "FUNMAT" series of 3D printers that can use "super engineering plastics" (super engineering plastics) with particularly excellent performance among engineering plastics. The FUNMAT PRO is a large industrial 3D printer with a large build area. (*Note: FUNMAT PRO is not compatible with super engineering plastics.) The FUNMAT series is developed by the 3D printer manufacturer "INTAMSYS," specializing in high-performance engineering plastic 3D printing. It is an FDM 3D printer designed for the use of super engineering plastics, capable of stably printing not only super engineering plastics but also large engineering plastics that have previously been difficult to print due to thermal shrinkage and distortion, making it a high-performance 3D printer. It is active in various industrial scenes such as aerospace, research and development, medical, and automotive industries. *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer
  • 3D Printer

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Case Study of FUNMAT PRO 410 (Sanki Co., Ltd.)

Case Study of FUNMAT PRO 410 (Sanki Co., Ltd.)

- Mass production of final parts for industrial vehicle cabins using a high-grade 3D printer -

This is an interview-style case study about the introduction and actual use of the high-grade 3D printers "FUNMAT PRO 410" and "FUNMAT HT" by Sanky Co., Ltd., a manufacturer specializing in industrial vehicle cabins located in Kahoku City, Ishikawa Prefecture. *For more details, please refer to the related links or the case study PDF.*

  • 3D Printer
  • 3D Printer

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No molds needed! We accept single-item processing of resin products!

No molds needed! We accept single-item processing of resin products!

We have introduced a 3D printer with carbon (carbon fiber)!

Until now, 3D printers could only create models for display, but by incorporating carbon, we have increased strength, allowing parts to be used. Products and jigs with strength greater than mass-produced items can be made without molds. We now have a three-machine system in conjunction with conventional machines. 【Features】 ■ No molds required, suitable for small lots ■ Strength greater than mass-produced items ■ Practical use possible, not just models *For more details, please refer to the PDF document or feel free to contact us.

  • Processing Contract
  • 3D Printer

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Problem-Solving Materials: Utilizing 3D Data Part 4 | Human Costs of 3D Printing

Problem-Solving Materials: Utilizing 3D Data Part 4 | Human Costs of 3D Printing

What are the "troublesome" challenges of operating a 3D printer? A resource for identifying and solving issues in the production field.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding resolutions. In the "3D Data Utilization Edition," we will introduce various solutions to manufacturing challenges through the use of 3D data. This document focuses on the theme of "human costs of 3D printers," presenting the operational challenges of 3D printers and their solutions. [Document Overview] Low-cost entry-level 3D printers have emerged in the market and are widely adopted in design and development settings. However, as one repeatedly prototypes with a 3D printer, the post-processing tasks, such as removing support material, can become cumbersome. In this document, we will explain the challenges that become apparent during operation, such as those mentioned above, based on the characteristics of different 3D printing methods. *You can download the document using the button below.*

  • others
  • 3D Printer

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Issue Resolution Document: Utilizing 3D Data Edition 4-1 | Reducing Post-Processing Time

Issue Resolution Document: Utilizing 3D Data Edition 4-1 | Reducing Post-Processing Time

How can we shorten the "post-processing time" challenge of 3D printers? A resource for identifying and solving challenges in the production field.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding resolutions. In the "3D Data Utilization Edition," we will introduce various solutions to manufacturing challenges through the use of 3D data. In Vol. 4-1, we will focus on the theme of "reducing post-processing time" and introduce a printing method that can reduce the human costs associated with 3D printing. [Document Overview] The largest human cost during 3D printer operation is the time involved in finishing work. A significant portion of this finishing work consists of "removing supports." Therefore, introducing a device that makes support removal easy is key to reducing human costs. By alleviating the workload for operators and shortening the time previously spent on post-processing, productivity can be improved, allowing for rapid prototyping and repeated evaluation and testing in a short period. This document will further explain how differences in printing methods can lead to reductions in human costs, including mechanisms for printing without support materials and an introduction to implementation concepts. *You can download the document using the button below.

  • 3D Printer
  • 3D Printer

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Problem-Solving Materials: Utilizing 3D Data Edition 1-2 | Deformation in Metal 3D Printing

Problem-Solving Materials: Utilizing 3D Data Edition 1-2 | Deformation in Metal 3D Printing

The unavoidable issue of "deformation" in metal 3D printers... What are the countermeasures? A resource for identifying and solving problems in production sites.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding resolutions. In the "3D Data Utilization Edition," we will introduce various solutions to manufacturing challenges through the use of 3D data. This document focuses on the theme of "deformation in metal 3D printing," explaining the mechanisms behind deformation in printed objects and methods for alleviating it. [Document Overview] Metal 3D printers, capable of creating complex shapes that cannot be produced by other processing methods, are seeing active technological development not only in Western countries but also within Japan. However, an inevitable challenge that arises with metal 3D printed objects is "deformation," which cannot be avoided due to the nature of the process. To achieve accurate printing as per the design, it is essential to understand the causes of deformation and to implement appropriate measures throughout the entire printing process. This document serves as the first installment in introducing solutions to the "deformation" challenge, explaining the mechanisms behind deformation and effective methods for its resolution. *You can download the document using the button below.*

  • simulator
  • Stress Analysis
  • 3D Printer
  • 3D Printer

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Quickly resolve Form3 errors! 'Troubleshooting Guide'

Quickly resolve Form3 errors! 'Troubleshooting Guide'

This is a response manual that allows for quick action when errors occur with the popular 3D printer 'Form3'. It clearly explains the causes and solutions with accompanying photos.

This is the troubleshooting manual for the Formlabs LFS 3D printer 'Form3'. "Why won't the print start even though I'm ready?" "The error message displayed is in English and hard to understand." "I don't know the specific measures to take for the error." ...and other common questions that may arise during the operation of the Form3 can be addressed using this reference material. Under the supervision of certified technicians trained by Formlabs, we have compiled common issues, along with their causes and solutions, complete with photographs. Please also use this when contacting our technical support. [Features of the Document] ■ Actual error contents and causes presented in Japanese Examples of potential errors and their causes are clearly summarized in Japanese. ■ Easy-to-understand solutions with accompanying photos Specific solutions are explained with photos, making it easier to visualize the steps to take. For more details, please request a catalog or view the PDF data via the download button below.

  • 3D Printer
  • Technical and Reference Books
  • 3D Printer

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Problem-Solving Materials: Utilizing 3D Data Part 2 | Design with Production in Mind

Problem-Solving Materials: Utilizing 3D Data Part 2 | Design with Production in Mind

How can we leverage design while keeping production costs down? A resource for identifying and solving challenges in the production field.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding resolutions. In the "3D Data Utilization Edition," we will introduce various solutions to challenges in manufacturing through the use of 3D data. This document focuses on the theme of "balancing production costs and design," presenting the challenges and solutions related to molding using molds. [Document Overview] Even as the use of 3D tools advances, there is a growing trend in fields such as design to incorporate designs expressed through various freeform shapes. These shapes are essential for enhancing the value and appeal of products, but they tend to incur higher costs and time during the manufacturing process. This document discusses the relationship between product shape and cost, taking into account the manufacturing process using molds. We will explain effective methods to leverage design while reducing production costs. *You can download the document using the button below.

  • Modeler
  • 3D CAD
  • Other CAD
  • 3D Printer

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Problem-Solving Materials: Utilizing 3D Data Edition 13 | Cycle Time of Design Prototyping

Problem-Solving Materials: Utilizing 3D Data Edition 13 | Cycle Time of Design Prototyping

Significantly reduce 3D printing time! How to shorten the cycle time for design prototyping? A resource for discovering and solving challenges in the production field.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding solutions. In the "3D Data Utilization Edition," we will introduce various solutions to manufacturing challenges through the use of 3D data. [Document Overview] With 3D data, it is easy to create models using 3D printers. They are effectively utilized as prototyping tools that reduce time and costs. In response to the recent trend of shortening product development cycles in the market, we have increasingly received requests for "wanting to create more in a shorter time" during design prototyping. Therefore, this document introduces the "combination of 3D printers and materials specialized for design prototyping," which can significantly shorten the prototyping cycle. It explains the advantages along with comparisons of actual modeling and working times, taking into account the differences in "time and quality" based on the modeling methods. *You can download the document using the button below.

  • 3D Printer
  • Other consumables
  • plastic
  • 3D Printer

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Problem-Solving Materials | Advantages and Challenges of Metal 3D Printers and Their Operation

Problem-Solving Materials | Advantages and Challenges of Metal 3D Printers and Their Operation

Operating a metal 3D printer with a small start! What are the benefits and challenges of its utilization? A resource for discovering and solving issues in the production site.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding resolutions. In the "3D Data Utilization" edition, we will introduce various solutions to challenges in manufacturing through the use of 3D data. This document will explain three specific benefits of using metal 3D printers, along with examples, and will also highlight the challenges that arise when advancing towards practical application. Furthermore, as a solution section, we will focus on "limitations of precision," "material restrictions," and "cost issues," providing detailed explanations of the points for resolving each challenge, and introducing methods for starting the operation of metal 3D printers on a small scale. [Document Overview] Metal 3D printers are expected to be utilized in the field of metal products due to advantages such as the production of high value-added products and cost reduction in small-scale manufacturing. This document will present the scenarios in which the benefits of metal 3D printers can be realized and the challenges for practical use from three perspectives: "more flexible design," "reduction of prototyping and manufacturing time," and "reduction of production costs." *You can download the document using the button below.

  • 3D Printer
  • 3D CAD
  • Machining Center
  • 3D Printer

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I tried 3D printing stainless steel with a metal 3D printer!

I tried 3D printing stainless steel with a metal 3D printer!

【Mitarepo】I tried 3D printing stainless steel with a metal 3D printer!

"Mitarepo" is a series based on the concept of "I tried doing this!" where we introduce what can be done using various products. We provide useful information each time from the wide range of product categories handled by System Create. The theme of Vol. 5 is "Trying to create stainless steel with a metal 3D printer." This time, we used a small metal 3D printer to create a block-shaped model in stainless steel. We are verifying the finish and accuracy of the created model using the type of printer we usually use for our contracted work. - Is support necessary? - What can actually be created? - What is the dimensional accuracy of the finished model? We explain these frequently asked questions from customers regarding "support and finish," along with comments from the person in charge and actual images. *You can download the materials from the button below.

  • 3D Printer
  • stainless
  • Other contract services
  • 3D Printer

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I tried outputting composite materials with a carbon 3D printer!

I tried outputting composite materials with a carbon 3D printer!

I tried outputting composite materials with a carbon 3D printer!

"Mitarepo" is a series based on the concept of "I tried doing this!" where we introduce what can be done using various products. We deliver useful information each time from the wide range of product categories handled by System Create. The theme of Vol. 7 is "Trying to output composite materials with a carbon 3D printer." This time, we examined how materials are compounded using a carbon 3D printer that just arrived at our company. We used manufacturer-approved carbon fiber and resin filament to observe how the fiber is coated with resin. - What kind of mechanism is it in the first place? - How does the material come out? We explain the "interesting mechanisms of carbon 3D printers" along with comments from our technical staff and actual images. *You can download the materials from the button below.

  • 3D Printer
  • Composite Materials
  • fiber
  • 3D Printer

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I tried the new feature of Form3, the adaptive pitch!

I tried the new feature of Form3, the adaptive pitch!

In the 【Mitarepo】, we tested whether the new feature "Adaptive Layer Pitch" of Form3 can really "create models beautifully and quickly"!

"Mitarepo" is a series based on the concept of "I tried doing this!" that introduces what can be done using various products. We deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 8 is "Trying out the new feature of Form3: Adaptive Layer Height." The new feature of "Form 3," Adaptive Layer Height, automatically sets the optimal variable layer height based on the model's shape and angle, balancing quality and time. We examined whether it can really "create beautiful and fast prints." In the materials, we prepared a model with surfaces inclined at 10° intervals and actually printed three patterns: "Time-priority printing," "Quality-priority printing," and "Adaptive layer height printing," comparing and verifying each. - "How is the layer height set based on the angle?" - "If you seek beautiful prints, won't it take more time?" - "If the printing time is shorter, will the surface quality ultimately suffer?" We will explain these points of interest along with actual images and comments from our technical staff! *You can download the materials from the button below.

  • 3D Printer
  • Other polymer materials
  • plastic
  • 3D Printer

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I investigated the accuracy and internal structure of carbon prints!

I investigated the accuracy and internal structure of carbon prints!

[Mitarepo] What is the dimensional accuracy of carbon 3D printing? Can a grid-like infill be made with carbon material? I actually looked into it!

"Mitarepo" is a series that introduces what can be done using various products, based on the concept of "I tried doing this!" We deliver useful information each time from the wide range of product categories handled by System Create. The theme of Vol. 18 is "We investigated the dimensional accuracy and internal structure of carbon prints!" This time, we checked the dimensional accuracy of the model created with the carbon 3D printer "Composer" and conducted a CT scan. First, we measured the lengths of the edges, hole diameters, boss heights, and other shapes of the test model to confirm the deviations from the design values. Next, we compared the print data with the CT scan data to verify the actual arrangement of the carbon material inside the model, which was set up in a grid pattern. "How accurate are the dimensions of carbon prints?" "What does it mean to 'use carbon material for infill'? Is it really there?" We will explain the points of interest regarding carbon 3D printers along with comments from our technical staff and the models we actually created! *You can download the materials from the button below.

  • 3D Printer
  • Composite Materials
  • fiber
  • 3D Printer

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Problem-Solving Materials: Utilizing 3D Data 19 | Reducing Production Costs Associated with Divided Manufacturing

Problem-Solving Materials: Utilizing 3D Data 19 | Reducing Production Costs Associated with Divided Manufacturing

Cost issues resolved with large 3D printers! How to reduce the costs associated with creating large models? A resource for identifying and solving challenges in production sites.

This document is a series that proposes solutions to various challenges faced in production sites, from identifying issues to finding solutions. In the "3D Data Utilization Edition," we will introduce various solutions to manufacturing challenges through the use of 3D data. [Document Overview] Among 3D printers, FDM-type models have become widely popular due to their ease of use, but recently we have seen an increase in inquiries regarding models that can handle large-scale prints. Currently, many people are addressing large model fabrication using "split printing" with smaller machines. However, due to the labor and cost involved, there is a growing demand for integrated printing with models designed for large-scale production. In this document, we have compiled the challenges of split printing as a theme and will introduce recommended large printers equipped with numerous features necessary for large model fabrication, along with their advantages. *You can download the document using the button below.

  • 3D Printer
  • plastic
  • Other work tools
  • 3D Printer

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