Attention those struggling with nylon shortages! Introduction of 3D printer utilization examples.
For those struggling with molded products due to the global nylon shortage, 3D printing is possible using nylon 12.
We have adopted a powdered type of "Nylon 12" as an alternative to Nylon 6 and Nylon 66, which can be shaped using a 3D printer. - Raw materials are difficult to obtain, and we are looking for alternative materials within the same nylon category. - We would like to obtain prototypes within 1 to 2 weeks. - For annual production quantities of 100 to 500 units, using molds is not cost-effective. - Due to complex shapes, machining costs become high. If you are facing such challenges, we recommend Nylon 12 using the PBF method. 【Features of Nylon 12】 ■ Tough and resistant to cracking ■ Can be shaped without supports, enabling complex geometries ■ Movable parts can be produced without assembly ■ Can be designed to match the shape, operation, and mounting mechanisms of the workpiece, allowing for small-scale production 【Solution Examples】 ■ Cost reduction for functional evaluation prototypes ■ Quick procurement of parts ■ Cost reduction for low-volume, high-variety final products ■ Supply of discontinued parts *For more details, please download the PDF materials or feel free to contact us.
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basic information
Do you have any of these concerns? ■ I want to quickly create prototypes ■ I want to conduct final considerations for mass production using a 3D model ■ I want to convert physical items or drawings into 3D data ■ I want to reduce the burden on the production site... We will solve all your issues related to 3D printers, from product development to mass production. *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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Download All Catalogs![Nylon 12 [Case Studies]](https://image.mono.ipros.com/public/catalog/image/01/8bd/597453/IPROS44473286004596345594.jpeg?w=120&h=170)
Company information
Since its establishment in 1937, our company has been engaged in ultra-precision microfabrication, mechanical cutting, welding, fusion processing, three-dimensional processing, wrapping, and polishing of high-performance resin materials known as super engineering plastics, including PEEK resin and polyimide resin (Meldin), for over 80 years. In 2010, we introduced 3D printers along with the latest 3D data creation software and 3D/CT scanners, beginning our proposals for advanced 3D manufacturing. In all aspects of manufacturing, our company has selected and utilized equipment and software from the manufacturer's perspective, independent of any specific device or software manufacturer. We ensure high-precision manufacturing to gain absolute trust in our products, while also prioritizing the intended use in 3D data, providing 3D data that meets our customers' objectives.
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