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.
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【Phases to Utilize DfAM】 ■Utilize the Stability of Manufacturing Costs - Achieve high-speed and high-frequency prototyping and development without the need for dedicated machine development or trial molds. ■Read the Turning Points - Reconstruct the entire production process by being well-versed in both existing methods and DfAM (i.e., DfX). ■Utilize Design Freedom - Realize a high-dimensional design and production system by understanding the characteristics of 3D printers. *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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Our company provides design/prototyping/manufacturing support that rapidly elevates ideas to product level through the integration of 3D printing utilization and digital design. - Appropriate 3D printing utilization proposals based on comparisons with existing methods by experts - 3D model creation/analysis/optimization by mechanical engineers - Management of shaping methods and surface treatments by CMF designers - Appearance design proposals and promotional creative production by product designers - Software development and realization of advanced 3D design by software engineers By having each member possess unique expertise, we achieve the integration and acceleration of the prototyping/development phase through cross-sectional support, as well as prompt and efficient solutions to specific challenges and requests.