Component Management

Designing 3D structures with simple building blocks

28th July 2016
Enaie Azambuja
0

On an apparently normal cube a pattern of hollows and bulges appears when the cube is compressed. Physicists from Dutch FOM Institute AMOLF and Leiden University together with colleagues from Tel Aviv University have developed a method to design such 3D structures and to construct these using simple building blocks. This paves the way for the use of 'machine materials' in, for example, prostheses and wearable technology. The researchers will publish their findings in an article in Nature.

Normally, atoms and molecules determine the properties of the materials they form. However that is different for 'metamaterials' designed by humans. "In the case of metamaterials, the spatial structure determines the material's behavior," explains AMOLF group leader professor Martin van Hecke.

"For example, a pattern of holes in a sheet of material gives rise to a mechanical response that is completely different than in the same material without holes. We also wanted to investigate this phenomenon for a 3D pattern of holes."

Van Hecke and his colleagues designed a cube-shaped, flexible building block with a hole in it. If pressure is applied to such a block then some of the sides cave in, whereas others bulge out. By stacking several of these building blocks researchers could make 3D structures.

Van Hecke: "The orientation of the blocks in the metamaterial is important. Under pressure, all of the hollow and bulging sides must fit exactly together. Most of the stacks are 'frustrated': somewhere within two hollows or bulges meet. However a large number of fitting solutions for this three-dimensional puzzle were found."

Van Hecke's colleagues at Tel Aviv University calculated the number of possible, non-frustrated stacks for different cubes of building blocks. "For one cube of 14x14x14 building blocks that is a number with no less than 65 figures," says Van Hecke.

"For each possible stack the deformation within the cube results in a specific pattern on the sides of the cube. By smartly combining the building blocks we can program the material such that every desired pattern appears on the sides of a compressed cube".

"Surprisingly such a cube can also be used to analyse patterns. If we press it against a pattern of hollows and bulges then we measure a force that is dependent on the pattern."

Although Van Hecke's research is fundamental in nature there are applications on the horizon. "This type of programmable 'machine materials' could be ideal for prostheses or wearable technology in which a close fit with the body is important," says Van Hecke.

"If we can make the building blocks more complex or produce these from other materials then the possibilities really are endless."

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