IMDEA and UPM have developed deformable woven nitinol metamaterials that combine metal strength with textile flexibility.

The company AnthroTek uses resin 3D printing and fused depostion modeling to reproduce ultra-realistic masks and organs.

SHENZHEN, GUANGDONG, CHINA, January 20, 2026 /EINPresswire.com/ -- The global landscape of additive manufacturing is ...

Researchers developed a fully recyclable, lignin-based 3D printing ink that solidifies without heat, stays stable up to 200 C ...

In 2026, image-to-3D AI is increasingly assessed through a practical lens: not how convincingly a model looks on screen, but ...

A research team from Tsinghua University has demonstrated an ultra-fast volumetric 3D-printing method that produces complex ...

Global 3D Printing Medical Devices Market OverviewThe global 3D printing medical devices market is poised for strong expansion, projected to grow at a CAGR of nearly 17% during the forecast period.

Additive manufacturing (AM) methods, such as 3D printing, enable the realization of objects with different geometric properties, by adding materials layer-by-layer to physically replicate a digital ...

Nickel–titanium (Nitinol) alloys are valued for their superelasticity and shape‑memory behaviour, but their compatibility ...

Rising Clinical Customization, Surgical Precision Requirements, and Bioprinting Innovations Position 3D Printing as a Core Enabler of Next-Generation Healthcare Delivery.Austin, United States, Feb. 13 ...

At first glance, few materials would seem to have less in common than metals and textiles. And yet, by manufacturing nickel-titanium alloys as a highly deformable, interwoven material, more similar to ...

Much like baking the perfect cake involves following a list of ingredients and instructions, manufacturing energetic materials—explosives, pyrotechnics and propellants—requires precise formulations, ...