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U3BlYWtlcihFdmVudF8yNDY2MDEyLEV2ZW50UGVvcGxlXzM2NDY0MjgzLFVzZXJfMTI5NDYxMjYp https://static.swapcard.com/public/images/0f6ee9466ef340adaf6e009c76e3dbca.jpeg Tom Curtis Tom Curtis Tom Curtis

Imagine designing a shoe or handbag and knowing — down to the smallest detail — exactly how it will look before the concept leaves the studio. That’s the level of alignment that our team at

Within the sports industry, 3D printed helmet designs are gaining traction. These new, additively manufactured designs are an innovative approach to a product that’s had little change in decades.

From shortening supply chains to enhancing productivity, industrial 3D printing can augment traditional manufacturing methods to create faster, smarter processes.

From shortening supply chains to enhancing productivity, industrial 3D printing can augment traditional manufacturing methods to create faster, smarter processes.

From shortening supply chains to enhancing productivity, industrial 3D printing can augment traditional manufacturing methods to create faster, smarter processes.

From shortening supply chains to enhancing productivity, industrial 3D printing can augment traditional manufacturing methods to create faster, smarter processes.

UGxhbm5pbmdfMjUxODU1NA== 3D Printing of Biocompatible PAPC + nylon66 for Mimicking Traditional Foaming Methods 3D Printing of Biocompatible PAPC + nylon66 for Mimicking Traditional Foaming

UGxhbm5pbmdfMjUxODUxNg== A Digital Twin for Residual Stress Control in a Directed Energy Deposition Process A Digital Twin for Residual Stress Control in a Directed Energy Deposition Process RAPID

UGxhbm5pbmdfMjUxODQ4Ng== A Method for Evaluating NDT Detectability in Additive Manufacturing Aerospace Parts A Method for Evaluating NDT Detectability in Additive Manufacturing Aerospace Parts