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3D printer Product List and Ranking from 289 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
This ranking is based on the number of page views on our site.

3D printer Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
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 岡本化学工業株式会社 Saitama//Resin/Plastic
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3D printer Product ranking

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
This ranking is based on the number of page views on our site.

  1. 3D Printer for Manufacturing Sites 'GX-1000 Series'
  2. PEEK-compatible industrial 3D printer 'G-ZERO MP1' グーテンベルク
  3. Silicone Rubber 3D Printer "SILICOM" ホッティーポリマー
  4. 4 Marsgo enables high-quality molding with the maintenance of horizontality and parallelism! システムクリエイト
  5. 5 Large 3D printer "SoonSer Mars Pro" using light shaping technology. システムクリエイト

3D printer Product List

466~480 item / All 884 items

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3D printer slicing software 'Simplify3D'

3D printer slicing software 'Simplify3D'

This is slicing software for melt-deposition 3D printers. With high-speed calculations and high-performance path functions, you can quickly start high-quality modeling. *Demo available.

"Simplify3D" is a cost-effective software that incorporates many features necessary for Fused Deposition Modeling (FDM) 3D printers. You can start 3D printing in just a few minutes, from import to operation, modification, slicing, and preview. [Features] ■ Achieves high-quality modeling High-performance path functions enable precise modeling. The support surfaces securely hold the model while being easy to remove, and the removed surfaces have a smooth finish, reducing the need for post-processing. ■ Reduces wasted time in conversion with high-speed calculations The slicing calculation speed is top-level, allowing for the creation of high-quality slice data in just a few seconds, even for what typically takes several minutes. ■ Usable with any FDM 3D printer You can freely set the build area and nozzle temperature, so it is not limited to specific models as long as it is an FDM 3D printer. If you are not satisfied with the build quality from the included software, please consider this option. *For more details, please request a catalog or view the PDF data from the download button below.

  • 3D Printer
  • Modeler
  • simulator

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In-house Implementation Case Study Book for [Cutting, Shaping, UV Printing]

In-house Implementation Case Study Book for [Cutting, Shaping, UV Printing]

A booklet of success stories from 10 companies that achieved in-house production of prototype creation, jig manufacturing, and decorative printing on products.

This is a booklet of success stories featuring 10 companies that have implemented the "MDX Series," "SRM-20," "ARM-10," and "LEF Series," achieving in-house production of cutting, shaping, and UV printing.

  • Other machine tools
  • Other processing machines
  • Other CAD related software

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Problem-Solving Materials: Productivity Improvement Edition 5 | Challenges and Solutions for Small-Batch, Multi-Variety Processing

Problem-Solving Materials: Productivity Improvement Edition 5 | Challenges and Solutions for Small-Batch, Multi-Variety Processing

What are the key points and effective methods to improve productivity in low-volume, multi-variety production? A resource for identifying 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 "Productivity Improvement Edition," we offer solutions aimed at enhancing productivity by streamlining various manufacturing processes and reducing man-hours and costs. In this document, we will introduce key points and effective methods for improving productivity, focusing on the theme of "Enhancing Productivity in Low-Volume, High-Variety Production." [Document Overview] In order to enhance corporate value and differentiate from competitors, it is becoming increasingly difficult to simply implement CAD/CAM and aim for quality improvement. More customers are responding to customer needs by accommodating low-volume production, but many are facing various challenges such as shortening delivery times and reviewing costs. This document summarizes the challenges and factors associated with low-volume processing and presents methods for improving setup processes. *You can download the document using the button below.*

  • Milling machine
  • Other machine tools
  • Milling

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Problem-Solving Materials: Utilizing 3D Data 14 | Lightweighting of 3D Printed Models

Problem-Solving Materials: Utilizing 3D Data 14 | Lightweighting of 3D Printed Models

Challenges of large-scale 3D printers: How to achieve both lightweight design models and model strength? A resource for identifying and solving issues 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. [Document Overview] In recent years, the proliferation of 3D printers has advanced explosively. In particular, FDM (Fused Deposition Modeling) 3D printers have become more affordable and capable of producing larger models, leading to widespread use among many companies. The introduction of large machines has made it possible to produce models that were previously made in parts all at once, thereby reducing labor hours. However, the increase in production time and weight has become a challenge for large-scale printing, and as the size of printed objects increases, it is necessary to adjust the data to achieve a balance between lightweight design and strength. In this document, we will specifically introduce methods to achieve both lightweighting and strength maintenance, which are challenges in large-scale printing. *You can download the document using the button below.*

  • 3D Printer
  • Other consumables
  • plastic

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I tried out the expression of fine details in Form3!

I tried out the expression of fine details in Form3!

How beautiful can a light curing 3D printer get? We tested its ability to express fine details!

"Mitarepo" is a series based on the concept of "I tried doing this!" where we introduce what can be done using various products. Each time, we deliver useful information from the wide range of product genres handled by System Create. The theme of Vol. 3 is "Trying the expressive power of fine details with Form3 Model Resin!" This time, we tested how beautifully the Form3 dedicated resin "Model Resin," which can reproduce fine details, can create shapes. In the materials, we compared the reproducibility of details and the workability of finishing processes by creating the same data under the same conditions using the widely used "Standard Resin." - Even if it can be beautifully shaped, does the finishing process become even more troublesome? - Does beautiful shaping mean higher costs? We explain these concerns with comments from technical staff and actual screens. *You can download the materials from the button below.

  • Other CAD related software
  • Data conversion software
  • Document and Data Management

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Carbon 3D Printer "Anisoprint Composer"

Carbon 3D Printer "Anisoprint Composer"

This is a 3D printer capable of using continuous carbon fiber composite materials. It reinforces the interior of models with proprietary technology, achieving high strength and lightweight. *Demo available.

The "Anisoprint Composer" series is a 3D printer that uses continuous fibers (carbon/basalt) to easily create high-strength and lightweight models. By adopting unique technology, it maximizes the "anisotropy" inherent in continuous fibers. [Features] ■ "CFC" for simultaneous extrusion of resin and continuous fibers By employing the unique technology "CFC (Composite Fiber Co-Extrusion)," it combines continuous fiber materials and resin materials within the 3D printer. By printing the base and surface of the model with resin and reinforcing the interior with fiber composite materials, it significantly enhances the strength of the model. ■ Ability to create lattice structures with fiber composites It allows the use of lattice shapes made from continuous fibers, enabling models to utilize "anisotropy," which exhibits very high tensile strength and bending strength in the direction of applied loads. ■ Compatible with various resins In addition to genuine PA (nylon), it can use resin filaments from various manufacturers. Materials can be selected according to the desired finish and characteristics of the model. *For more details, please request a catalog or view the PDF data via the download button below.

  • 3D Printer
  • Composite Materials
  • plastic

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Problem-Solving Materials: Utilizing 3D Data 16 | Strength of FDM Printed Models

Problem-Solving Materials: Utilizing 3D Data 16 | Strength of FDM Printed Models

How to incorporate "carbon materials" to solve the strength issues 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 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 (Fused Deposition Modeling) machines are easy to use and implement, and they have become widespread in many production sites. In recent years, elements that were considered weaknesses of FDM, such as the variety of materials and improvements in model quality, have gradually been addressed. However, the challenge posed by FDM technology is the "insufficient strength of printed models." This document compiles the issue of strength deficiency that most FDM 3D printers face and explains the advantages of carbon materials with "continuous fibers." Additionally, we will introduce 3D printers that adopt a unique printing method based on FDM. *You can download the document using the button below.

  • 3D Printer
  • fiber
  • Composite Materials

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I tried creating a small model with a large 3D printer!

I tried creating a small model with a large 3D printer!

[Mitarepo] I tried creating a small model with a large 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. 10 is "We tried creating small models with a large 3D printer." We used a large FDM-type 3D printer to create small models. While handling large printers, we receive a lot of feedback, and among them, many people ask, "Can I create both large and small items with just one machine? Is it really possible?" Therefore, we will explain the "finish" that you might be curious about when creating small models with a large machine, along with actual images and comments from our technical staff! *You can download the materials from the button below.

  • 3D Printer
  • Prototype Services
  • Processing Jig

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FDM method 3D printer "CreatBot" series

FDM method 3D printer "CreatBot" series

A 3D printer with ideal specifications required for stable modeling. It achieves reliable modeling with comprehensive standard equipment. *Demonstration available.

The CreatBot series includes six models: the "D1000 HS" and "D600 Pro2 HS," which have large build areas, and the "F430," "PEEK-250," "PEEK-300," and "F160-PEEK," which can use special materials and super engineering plastics. You can choose the optimal 3D printer according to your purpose and needs. [Features] ■ Equipped with a high-temperature nozzle that can handle up to 420℃ With dual nozzles of 420℃ and 260℃, it is possible to combine prints. (PEEK-300 can reach up to 480℃) ■ Table & chamber heater to manage internal temperature By thoroughly controlling the internal temperature, it maintains a uniform temperature throughout the entire model. It can also prevent the effects of changes in indoor temperature, which are easily influenced. ■ Auto-leveling function that keeps the distance between the table and nozzle constant By maintaining a constant distance between the nozzle and the build table, it enables uniform layering and achieves stable printing. You can feel secure even with large prints that take a long time. *The features vary by model. *For more details, please refer to the PDF data available via the download button below.

  • 3D Printer

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I tried out the cost reduction effects of supportless modeling!

I tried out the cost reduction effects of supportless modeling!

[Mitarepo] Tried the cost reduction effects of support-free powder molding! [Low-cost powder molding 3D printer LISA-PRO]

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" From the wide range of product categories handled by System Create, we deliver useful information each time. The theme of Vol. 11 is "We examined the operational effects of support-free 3D printing using powder 3D printers!" It has become common knowledge that "support is necessary" for 3D printing. But don't you think that if 3D printing could be done without support, it could reduce costs? This time, we actually performed support-free printing with a powder sintering 3D printer and carried out post-processing, examining the advantages of support-free printing, such as "ease of post-processing," "cost reduction," and "print quality." "After all, doesn't surface treatment take a lot of effort?" "Isn't the cost difference between having support and not having it negligible?" "Will the roughness of the powder compromise quality?" We will explain these concerns regarding "operational effects" along with actual images and comments from our technical staff! *You can download the materials from the button below.

  • 3D Printer
  • Contract manufacturing
  • Prototype Services

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Mita Repo: How much high temperature can heat-resistant materials for 3D printers withstand?

Mita Repo: How much high temperature can heat-resistant materials for 3D printers withstand?

【Mitarepo】How high a temperature can 3D printer materials withstand? We tested it with the 'Form 3'!

"Mitarepo" is a series that introduces what can be done using various products with 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. 21 is "How high of a temperature can heat-resistant materials for 3D printers withstand?" This time, we used the heat-resistant material HTM from the light-curing 3D printer "Form 3" to create a plate and tested how much high temperature it can endure. The materials will examine differences in deformation due to thickness, how soft it becomes after being heated for a certain period, and whether deformation occurs when actually bent. "Even though it's called heat-resistant, isn't the temperature not that high since it's a 3D printer material?" "The load deflection temperature in the material property table makes it hard to understand the actual heat resistance!" We will explain the "usable temperature" concerning heat-resistant model production, along with photos of the work process and results, as well as comments from the technical staff! *You can download the materials from the button below.

  • 3D Printer
  • Resin processing machine
  • plastic

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I tried investigating Form3 high-speed material draft resin!

I tried investigating Form3 high-speed material draft resin!

【Mitarepo】Form 3 / Dramatic reduction in modeling time! We thoroughly investigated whether it really becomes one-third!

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" We will deliver useful information each time from the wide range of product genres handled by System Create. The theme of Vol. 22 is "Thorough Investigation of the High-Speed Draft Resin for Form 3!" This time, we used the high-speed draft resin capable of rapid printing with the light-curing 3D printer "Form 3" to investigate how much time can actually be saved. We printed both the high-speed draft resin (layer pitch 200/100μm) and the standard resin (gray/layer pitch 100μm) and compared the required printing times. We will examine and explain the two features that enable high-speed printing: "large layer pitch" and "short curing time." "How fast can high-speed materials be printed?" "Why is it faster than other materials?" We will provide explanations along with actual model images of the draft resin and verification data on printing times. *You can download the materials from the button below.

  • 3D Printer
  • plastic
  • Prototype Services

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Powder Sintering Method 3D Printer 'Fuse 1+ 30W'

Powder Sintering Method 3D Printer 'Fuse 1+ 30W'

A highly versatile SLS (Selective Laser Sintering) system that balances ease of use and quality. Anyone can achieve high-quality modeling. *Demonstrations available.

The "Fuse 1+ 30W" is a powder sintering (SLS) 3D printer from Formlabs (powder 3D printer). It condenses a technology that was mainly high-end and expensive into a compact size, achieving both ease of use and quality. [Features] ■ Packaged Forming System The packaged forming system, enabled by the collaborative operation of the Fuse 1+ 30W and Fuse Sift, allows for efficient and clean operation. ■ Easy Operation for Anyone By loading data into the included software "PreForm," you can simply select the material and determine the model's layout to prepare for printing. ■ New Design Material That Does Not Require Nitrogen The specially designed powder material achieves high quality while maintaining material properties without the need for nitrogen. ■ No Support Needed, Reducing Costs and Time Un-sintered powder supports the model, eliminating the need for support material that would otherwise have to be discarded. ■ An Ecosystem with Virtually Zero Waste By mixing approximately 30% of new powder with un-sintered powder, it can be used as recycled powder. *Please view the PDF data from the download button below.

  • fuse1_detail.jpg
  • fuse1_sagyo1.jpg
  • fuse1_sagyo2.jpg
  • fuse1_sagyo3.jpg
  • fuse1_sagyo4.jpg
  • fuse1_sagyo5.jpg
  • fuse1_sagyo6.jpg
  • 3D Printer

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Problem-Solving Materials 3D Data Utilization Edition 20 | 3D Printing of Soft Materials

Problem-Solving Materials 3D Data Utilization Edition 20 | 3D Printing of Soft Materials

Cost challenges resolved with large 3D printers! How to reduce costs associated with creating large models? A resource for identifying and solving issues 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] As the performance of FDM 3D printers improves, not only the main material PLA but also functional materials such as heat-resistant and high-strength resins have increased. One of these is "soft materials." However, soft materials tend to clog near the print nozzle, and many models cannot print them, making FDM 3D printers generally considered "not good with soft materials." In this document, we will explain the factors that make FDM printers struggle with soft materials, along with the structure of 3D printers, and introduce 3D printers that can resolve these issues. *You can download the document using the button below.

  • 3D Printer
  • Rubber
  • Other polymer materials

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I tried making a lightweight and strong model with Form 3/3L!

I tried making a lightweight and strong model with Form 3/3L!

【Mitarepo】Model weight reduction and strength enhancement with Form 3L × Form 3! We tried improving it into a more functional model!

"Mitarepo" is a series that introduces what can be done using various products with the concept of "I tried doing this!" From the wide range of product categories handled by System Create, we deliver useful information each time. The theme of Vol.36 is "We tried enhancing the functionality of the model using a combination of Form 3 and 3L!" In the previously introduced Vol.33, we created a model of a magic hand using Form 3L. However, when we actually assembled the model, we discovered issues such as "the main body is heavy" and "the parts lack strength." Therefore, this time we challenged ourselves to improve functionality through weight reduction and strength enhancement. For the magic hand data, we made two changes: - Main body: Weight reduction through hollowing - Parts: Increased toughness using Tough 2000 resin We printed each using Form 3L and Form 3. "Is it possible to create hollow models with the light curing method?" "What does it look like to combine two models?" We will explain the actual verification process along with comments from our technical staff. *You can download the materials from the button below.

  • 3D Printer
  • 3D CAD
  • plastic

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