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3D Printer(design) - List of Manufacturers, Suppliers, Companies and Products

3D Printer Product List

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Primal Design.Labo LLC Company Profile

Primal Design.Labo LLC Company Profile

Support for new product development rooted in practical application, thinking together about the utilization of 3D printing.

Primal Design.Labo LLC is a company focused on creating value for digital manufacturing. We support the development of new products rooted in practical applications of 3D printing by collaboratively exploring its utilization based on four key concepts that are essential for the practical implementation of 3D printing. Additionally, we engage in other businesses such as FA, smart factories, machinery introduction, selection, sales, and technical consulting. Please feel free to contact us if you have any inquiries. 【Main Businesses】 ■ FA ■ 3D Printer Development ■ Smart Factory ■ Machinery Introduction, Selection, and Sales ■ Technical Consulting *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer

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Large 3D Printer 'Modix BIG-series'

Large 3D Printer 'Modix BIG-series'

Large scale 3D printer, evolved fourth generation, entry-level large 3D modeling machine.

★ The new model in 600 angle size is equipped with independent dual-head technology → High speed and efficiency with two print heads ★ Self-assembly allows installation in hard-to-reach areas → A wide range of custom parts for purpose-specific configurations according to budget → Common platform - all models and generations support long-term upgrades → Compact transport enables quick and low-cost implementation *1: Adding heads to old generation models is optional. *2: Upgrading old generation models requires the purchase of optional parts. It does not guarantee compatibility for upgrades beyond the next generation. *3: Delivery times may vary depending on product specifications and order timing. For more details, please consult with the domestic authorized dealer, Primal Design Lab.

  • Other machine tools
  • 3D Printer
  • Machinery and equipment installation/dismantling/relocation

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Four Concepts to Understand for the Practical Application of 3D Printing

Four Concepts to Understand for the Practical Application of 3D Printing

Support for new product development rooted in practical implementation, thinking together about the utilization of 3D printers.

This document introduces four concepts that should be understood for the practical application of 3D printing. 1. "DfX," a method for restructuring the manufacturing process utilizing digital design and production. 2. "DfAM," a design methodology for additive manufacturing that maximizes the performance of 3D printers. 3. "Software," how to utilize software to optimize design and connect it to mass production. 4. "Machine Tools," the introduction and utilization of 3D printers to optimize manufacturing and production while improving quality, detailed with diagrams and illustrations. This book serves as a useful reference when considering 3D printing. [Contents (partial)] - Company Overview - Proposing suitable approaches from the perspective of utilizing digital technology from planning to mass production. - What scenarios of 3D printing demonstrate true value in the realm of technological limits? - Selection, introduction, and development support of digital tools that lead to advanced design and production systems. - Software - Machine Tools *For more details, please refer to the PDF document or feel free to contact us.

  • 3D Printer

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Support service for redesign utilizing metal 3D printers

Support service for redesign utilizing metal 3D printers

Possibilities expanding with designs based on 3D printing. If you are struggling with issues such as weight reduction, longevity, or high strength, please feel free to consult with us.

In Japan's additive manufacturing, we offer a "Design Review Support Service Utilizing Metal 3D Printers" in collaboration with Tokyo R&D Co., Ltd. By designing with "DfAM (Design for Additive Manufacturing)" based on the premise of manufacturing with metal 3D printers that can create complex shapes in one piece, we contribute to "enhancing the added value of manufacturing" across various fields and industries. Even if you do not have a specific design proposal at this time, we can provide various ideas. Please feel free to consult with us. 【Examples of Benefits of Incorporating "DfAM"】 ■ Longevity: Achieving internal flow paths in molds with complex shapes that are difficult to create with cutting, improving cooling functions. ■ Increased Strength: Creating complex hardened coils in one piece, eliminating the need for brazing. ■ Improved Productivity: Reducing weight by reviewing the material and design of jigs, enhancing workability and productivity. ■ Weight Reduction: Achieving significant weight reduction and increased rigidity of automotive parts through topology optimization. ■ Customization: Enabling the economical production of products with different specifications, such as implants, all at once. ■ Improved Heat Dissipation: Enhancing the heat dissipation of automotive parts with complex shapes unique to metal 3D printers. *For more details, please refer to the PDF document.

  • Other Auto Parts

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[Inventor Case Study] Tesco Corporation Fuchu Office

[Inventor Case Study] Tesco Corporation Fuchu Office

Adding value to 3D design with 3D printers! A case study of pioneering a new world of 3D design business.

We would like to introduce a case study of Tesco Corporation, which utilizes Autodesk Product Design Suite and 3D printers that we handle. Their strength as a group of engineers lies in three-dimensional design, and they are focusing on 3D printers as an added value. The introduced 3D printer has begun operation by designers, and a service for creating prototypes of parts has also started. 【Case Overview】 <Challenge> ■ We want to increase our work in three-dimensional design. <Result> ■ By providing 3D printer output in addition to the design itself, we will add new value to our three-dimensional design. *For more details, please refer to the PDF document or feel free to contact us.

  • Other CAD related software
  • 3D CAD

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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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Selection of Machine Tools and 3D Printers

Selection of Machine Tools and 3D Printers

Control costs by selecting machines tailored to the purpose. Consideration of the processes required for implementation.

One of the four concepts to understand for the practical application of 3D printing is "Machine Tools." Just because the design goal is high-level does not necessarily mean that introducing a high-end 3D printer is the correct solution. By scrutinizing the "intermediate processes" required for stabilizing and enhancing the precision of 3D printing, it is possible to achieve goals on a low budget, shorten delivery times, and utilize spot applications in certain phases. 【Intermediate Processes that Affect Quality】 ■ Adjustments for large-scale and high precision ■ Design considering post-processing ■ Split molding and partial utilization *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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