The researchers of the Hasso-Plattner Institute are now exploring a project that they call 'Metamaterial Mechanisms,' which involves engineering an object's outer shape, as well as its "inner microstructure" all at once.
The research project is best exemplified by a metamaterial door latch, which uses the movement of the handle in order to also impact the inner movement of a system of cellular grids that make up the latch mechanism. As a result, the 3D-printed metamaterials require no assembly because they consist of a single part.
Metamaterial Mechanisms has also been explored with a walking object that takes inspiration from Theo Jansen's Strandbeest. These kinds of mechanisms speak of the immense amount of impact that 3D printing and CAD will have on the future of product design and engineering.
3D-Printed Door Handles
This Metamaterial Door Latch and Handle is Made from a Single Form
Trend Themes
1. Metamaterial Mechanisms - Leveraging 3D printing and advanced CAD technologies to create objects with integrated inner microstructures, opening up opportunities for complex and efficient designs.
2. Single-part 3D Printing - Using 3D printing to fabricate objects that require no assembly, streamlining manufacturing processes and reducing production time and costs.
3. Integration of Movement - Designing objects where the movement of one component influences the movement of the entire system, enabling innovative and interactive functionality.
Industry Implications
1. Product Design - Exploring the use of 3D printing and CAD technologies to create innovative and efficient products with integrated inner structures.
2. Engineering - Leveraging 3D printing and metamaterial mechanisms to revolutionize the design and manufacturing processes in engineering.
3. Manufacturing - Adopting single-part 3D printing to streamline production, reduce assembly requirements, and increase efficiency in manufacturing processes.