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3D Printer - メーカー・企業43社の製品一覧とランキング

更新日: 集計期間:Sep 17, 2025~Oct 14, 2025
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3D Printerのメーカー・企業ランキング

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  1. ホッティーポリマー Tokyo//Resin/Plastic
  2. null/null
  3. グーテンベルク Tokyo//Industrial Machinery
  4. null/null
  5. 5 システムクリエイト Osaka//Industrial Machinery
企業ランキングへ

3D Printerの製品ランキング

更新日: 集計期間:Sep 17, 2025~Oct 14, 2025
※当サイトの各ページの閲覧回数を元に算出したランキングです。

  1. Surface treatment on aluminum other than anodizing: plating.
  2. Silicone Rubber 3D Printer "SILICOM" ホッティーポリマー
  3. 3D Printer for Manufacturing Sites 'GX-1000 Series'
  4. 4 PEEK-compatible industrial 3D printer 'G-ZERO MP1' グーテンベルク
  5. 5 FDM method 3D printer "CreatBot" series システムクリエイト

3D Printerの製品一覧

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[Case Study of Corporate Implementation] Abundant operational experience with 3D printers up to the final product.

[Case Study of Corporate Implementation] Abundant operational experience with 3D printers up to the final product.

Insoles with complex shapes that could not have been created without craftsmen and engineers, in order to solve product development challenges.

We spoke with Mr. Yamakawa from Japan Healthcare Co., Ltd., which sells custom-made insoles produced by a 3D printer using the country's first smartphone! Insoles with complex shapes that could not have been created without artisans or engineers have been developed, and we consulted DMM.make to solve the challenges in product development. ■ Use Cases 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 goods.

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[Case Study] Using a 3D printer to iterate prototypes and create the final product.

[Case Study] Using a 3D printer to iterate prototypes and create the final product.

During the prototyping stage, we used a 3D printer to verify the shape and strength while fabricating the final product with PA12 material.

We spoke with Mr. Kishi, the representative director of Kishitec Co., Ltd., which has been specializing in mechanical design using 3D CAD since its establishment. They are capable of creating 3D data from clay models and similar shapes, as well as reverse engineering, and they produce high-precision models, jigs, measuring instruments, and industrial products from 3D data. They consulted DMM.make for manufacturing using Jet Fusion during the prototyping stage of bicycle accessories. ■ Use Cases 3D CAD data is utilized for a wide range of applications, including as alternative methods for extrusion molding, casting, machining, injection molding, molds, and formwork, as well as for molding small parts of IoT products and finished goods.

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Ultimate machine for "makers": Da Vinci 1.0 Pro 3in1

Ultimate machine for "makers": Da Vinci 1.0 Pro 3in1

Professional 3D printer compatible with third-party filaments and G-code.

The Da Vinci 1.0 Pro 3-in-1 is a professional-grade 3D printer compatible with third-party filaments and G-code. It features a built-in 3D scanner and can perform laser engraving by attaching an optional laser module. It has all the functions in one unit, making it ideal for small offices. With the 3D scanner included in the Da Vinci 1.0 Pro 3-in-1, you can duplicate objects at home. It allows for easy 3D scanning and also includes editing features.

  • 3D Printer

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White Paper: 3D Printing with Both Composites and Metals

White Paper: 3D Printing with Both Composites and Metals

Achieve rapid improvements in the manufacturing process! Optimize parts according to the desired quality!

This document introduces 3D printing using both composite materials and metals to address the diverse challenges in manufacturing environments. High-strength composite material 3D printing and metal 3D printing are both methods for producing parts that demonstrate high value. While each can independently cater to a wide range of use cases in manufacturing, the mutual reinforcement of both printers enables the realization of intelligent solutions. In this document, we present several methods to achieve rapid improvements in manufacturing processes by leveraging the complementary technologies of both printers. We encourage you to read on. [Contents (excerpt)] ■ Metals and high-strength composites - Which to use ■ Complex metal parts - Demand 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.

  • 3D Printer

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Digital Metal Case Studies 2020 (Available for free download)

Digital Metal Case Studies 2020 (Available for free download)

We have compiled examples of objects created using binder jetting metal 3D printers.

The features of Digital Metal can be summarized as follows: - Capable of precisely shaping small parts - High design freedom - Good surface quality - Suitable for mass production - Possible to change shapes and customize By leveraging the features of Digital Metal, it is possible to design shapes that are difficult to achieve with conventional methods. The case studies introduce and explain examples of Digital Metal's shaping capabilities. We hope you can refer to what designs are possible with binder jetting metal 3D printers. Höganäs Japan also provides design guidelines for Digital Metal. The guidelines offer reference information for designers, including recommended dimensions and shapes. This is also provided free of charge, so if you would like the guidelines, please contact the following address. Please note that we will refrain from sending them to companies that are competitors of ours. Thank you for your understanding. Höganäs Japan Co., Ltd. Contact: Masahiro Miyamoto masahiro.miyamoto@hoganas.com

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Design for Additive Manufacturing (DfAM) utilizing 3D printing.

Design for Additive Manufacturing (DfAM) utilizing 3D printing.

It is in the realm of technological limits that the true value of 3D printing scenarios is realized.

One of the four concepts to understand for the practical application of 3D printing is "DfAM." DfAM (Design for Additive Manufacturing) is a term for product design that maximizes the benefits of 3D printing, layered manufacturing, and additive manufacturing. In the context of Japan's high-quality industrial technology that has been cultivated over the years, the advantages gained from simple 3D printing alone are limited. By scrutinizing development and manufacturing goals, identifying the limitations of existing methods, and focusing on installing the necessary technological elements, effectiveness is achieved. 【Improvement Goals with DfAM】 ■ Reduction of defect rates (defect rate × number of parts) ■ Reduction of management burden (inventory management/order-based production) ■ Reduction of equipment costs (production without machines/molds) ■ Shortening of delivery times (compression of manufacturing processes) *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer

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The Future of Manufacturing through DfX×DfAM

The Future of Manufacturing through DfX×DfAM

Mass production using 3D printers. Production optimization proposed by our company.

We will introduce "The Future of Manufacturing" through DfX and DfAM. The mass production using 3D printers has generally been considered unsuitable for large-scale production due to the perception that "printing speed is slow" and "accuracy is low and unstable." However, in recent years, the trend towards high turnover in manufacturing and the expansion of software supporting 3D printing have significantly increased compatibility with mass production systems, leading to expectations for practical application and widespread adoption. 【Changes in Manufacturing Trends】 ■ Shortening of product life cycles ■ Diversification of demand due to the spread of e-commerce ■ Automation of production lines ■ Contribution to sustainability *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer

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What are the 6 points to check when introducing a metal 3D printer? *Booklet available.

What are the 6 points to check when introducing a metal 3D printer? *Booklet available.

Can't ask now, a must-see for those struggling with the introduction of metal 3D printers for the first time! The key points are the shape and size of the target parts [*Free booklet giveaway].

In this document, we will introduce six key points to consider when introducing a 3D printer, starting with "the shape and size of the target parts." 【Recommended for】 ◆ Those hesitant to consider the introduction of a metal 3D printer due to high costs ◆ Those who want to try it out but are unsure about its usability 【Content (partial)】 (1) The shape and size of the target parts (2) About materials (3) Utilizing contract manufacturing services (4) About peripheral equipment We also offer contract manufacturing services, supporting the realization of metal 3D printer utilization while addressing our customers' challenges and requests. *Currently offering a free gift of "Six Key Points to Consider When Introducing a Metal 3D Printer"! Click "PDF Download" to obtain it.

  • 3D Printer

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PEEK-compatible industrial 3D printer 'G-ZERO MP1'

PEEK-compatible industrial 3D printer 'G-ZERO MP1'

Maximum speed 700mm/s, maximum acceleration 30,000mm/s², layer pitch 50-200μm!

The "G-ZERO MP1" is a desktop 3D printer specialized for PEEK molding. It features a compact design that does not require special ancillary equipment, making it easy to install in offices or factory lines. With a unique metal frame, stainless steel exterior, reliable drive components, and advanced control technology, it achieves ultra-fast, high-strength, and high-precision molding of PEEK, overcoming the weakness of interlayer bonding that has been a challenge in PEEK molding. 【Features】 ■ Pursues speed, strength, and aesthetics ■ Stable output of PEEK-based POTICON FILAMENT ■ Designed and manufactured domestically *For more details, please refer to the related links or feel free to contact us.

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  • 3D Printer

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You can see a demonstration of a 3D printer and take a factory tour!

You can see a demonstration of a 3D printer and take a factory tour!

Would you like to come for a factory tour that is possible because of domestic design and manufacturing in Japan?

Our company is headquartered in Higashi-Kamata, Ota City, Tokyo, a town known for manufacturing. At our headquarters factory, you can observe the actual production of 3D printers and see demonstration prints. We warmly welcome consultations with our engineers regarding any issues your company may have, as well as questions about the actual machines! Additionally, we have offices in Osaka and Nagoya where you can see the machines on display, so please feel free to contact us. (Reservation required)

  • 3D Printer

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[Research Material] Global Market for Resin Used in Calendars

[Research Material] Global Market for Resin Used in Calendars

Global Market for Calendar Resins: PVC, PET, PETG, Furniture & Furniture Trim, Automotive, Food & Beverage, Electronics & Electrical, Construction & Building, ...

This research report (Global Calendering Resins Market) investigates and analyzes the current status and outlook for the global calendering resins market over the next five years. It includes information on the overview of the global calendering resins market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the calendering resins market focus on PVC, PET, and PETG, while the segments by application cover furniture and furniture trim, automotive, food and beverage, electronics and electrical, construction, healthcare and medical, and others. The regional segments calculate the market size for calendering resins by dividing it into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa. The report also includes the market share of major companies in the calendering resins market, product and business overviews, and sales performance.

  • Other services

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[Market Report] Industrial 3D Printing Market

[Market Report] Industrial 3D Printing Market

Global industrial 3D printing market, CAGR 21.9%, rapid growth forecast from 2024 to 2032.

The global industrial 3D printing market is expected to experience rapid growth from 2024 to 2032. The market size is projected to increase from 22.2 billion USD in 2023 to 131.9 billion USD by 2032, with a compound annual growth rate (CAGR) of 21.9%. Industrial 3D printing is used to develop 3D objects utilizing digital files. This technology creates objects by layering materials through a additive manufacturing process. With high precision and efficient use of materials, 3D printing is being utilized in various industries for the development of custom products. You can check the application method by clicking the [PDF Download] button or apply directly through the related links.

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