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Light Forming 3D Printed Products (3D Printing / Adachi Ward, Tokyo)

Light Forming 3D Printed Products (3D Printing / Adachi Ward, Tokyo)

We are conducting prototype modeling using the LFS method with Form3+.

Additionally, we have in-house designers, so we can carry out everything from 3D modeling to prototyping consistently. ■ 3D Modeling - SOLIDWORKS * The following methods are available: 〇 Provide 3D model data (STEP or STL) 〇 Create from 3D models in-house ■ Materials Used - Standard Resin - Draft Resin - Tough 2000 Resin - Tough 1500 Resin - Durable Resin - Flexible 80A Resin - Elastic 50A Resin - Grey Pro Resin - Rigid 4000 Resin - Rigid 10K Resin - High-Temp Resin - Castable Wax Resin - Castable Wax 40 Resin - ESD Resin ■ Advantages of Prototyping - Prototyping can be done without creating molds or jigs. - Product shape verification and fit verification can be conducted without incurring upfront costs.

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Proposing the optimal solution for the utilization of digital software.

Proposing the optimal solution for the utilization of digital software.

Achieving rapid development with a "purpose-specific perspective." Leading to advanced design and production systems.

One of the four concepts to understand for the practical application of 3D printing is "Software." Digital software serves as a "perspective" and "viewpoint" for observing objects centered around the information needed. In the world of 3D printing, where various analysis parameters and the shapes of printed objects are closely linked to generate complex three-dimensional shapes, it is often the case that the "apparent impression" held by humans differs from the simulation results. [Overview (Partial)] ■ Viewing objects by shape - While human visual information is meticulously reproduced on the screen, the internal information is limited. ■ Creating objects with information - The appearance of the shape generated based on computational results does not inherently hold meaning. ■ Creating relevance of information - By linking the information contained in a 3D model, it enables flexible editing and detailed analysis. *For more details, please refer to the PDF document or feel free to contact us.

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Product design envisioned by Primal Design.Labo.

Product design envisioned by Primal Design.Labo.

The future of manufacturing through DfX × DfAM. Creating and communicating ideas for business expansion.

Our company will continue to propose visions based on an understanding of the "history of industry and design." The changes in the environment surrounding manufacturing are not limited to economic trends and technological advancements. In recent years, there has been a reevaluation of design philosophies that are not constrained by the functionalist design ideas rooted in the concepts of "speed" and "mass production" that emerged after the Industrial Revolution, in favor of more "primitive and value-creating design philosophies." Various designs labeled as emerging concepts can be seen as inevitable and useful ideas for everyone when interpreted through the lens of industrial history. 【Product Design (Partial)】 ■ Backcasting - Define the desired future state and design an action plan to bridge the "gap with the current situation" in a reverse manner. ■ Speculative Design - Develop various challenges and social concepts linked to a pinpoint and leapfrogging vision of the future, starting from the idea that "such a world could also exist." *For more details, please refer to the PDF document or feel free to contact us.

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Reconstruction of manufacturing utilizing digital design and production - DfX

Reconstruction of manufacturing utilizing digital design and production - DfX

From planning to mass production, we propose an appropriate approach from the perspective of utilizing digital technology.

One of the four concepts to understand for the practical application of 3D printing is "DfX." DfX is a collective term for optimization methods of various elements during the development and design phase, such as ease of assembly, reduction of environmental impact, and ease of product improvement. It broadly covers everything from specialized technical cooperation, such as commissioning the production of digital data and selecting machinery, to comprehensive consultation for projects based on prototyping, development mass production, and automation of new products. **Features** - Cutting-edge technology knowledge × product consultation - Support for multifaceted communication *For more details, please refer to the PDF materials or feel free to contact us.*

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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 general 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 so far, simply converting to 3D printing yields few advantages. It is effective to scrutinize development and manufacturing goals, identify the limitations of existing methods, and focus on installing the necessary technological elements. [Improvement Goals with DfAM] - Reduction of defective product 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.

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