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Springy ceramics bounce back when squeezed

Ceramics break rather than bend under pressure, but nano-lattices have been used to produce resilient ceramics that could help make ultralight, tough materials

Video: Hard to crush

Alumina nano-lattices can be compressed without going to bits
Alumina nano-lattices can be compressed without going to bits
(Image: L. R. Meza, S. Das, J. R. Greer)

Put the squeeze on a ceramic mug and you鈥檒l crush it to powder. But ultra-tiny ceramic scaffolds can now be made that bounce back under pressure. Such materials can be made so light that they approach density of air, and might serve as shock absorbers in cellphones and other fragile devices.

鈥淭his, for ceramics, is unheard of,鈥 says at the Max Planck Institute of Colloids and Interfaces in Potsdam, Germany, who was not involved in the work. 鈥淭hey are usually brittle and will fracture.鈥

Such brittle materials typically contain tiny defects 鈥 little cracks or holes 鈥 that lead to cracking under pressure. To tackle this problem, researchers led by at the California Institute of Technology in Pasadena built tiny lattices out of superthin ceramic tubes with walls just 5 to 60 nanometres thick. This thinness leaves little room for defects that might otherwise send cracks throughout the lattice.

Stress tests revealed that some of the lattices with tube walls 10 nanometre thick bounced back to more than 95 per cent of their original height after being compressed by more than 50 per cent.

Take the strain

鈥淭he strain is the most striking,鈥 says materials scientist of the National Centre for Scientific Research in Cavaillon, France. Ceramics usually break after being compressed by 1 per cent, he notes, 鈥渟o 50 per cent strain is really huge鈥.

The tube walls wrinkle and warp under compression, then the tubes bend under the stress. Any cracks that appear in the lattice seem unable to propagate past these stressed bends in the tubes, so they are stopped in their tracks. When the research team made lattices with tubes with walls 60 nanometres thick, the lattices behaved like a normal brittle material and were crushed to dust.

鈥淓lastic ceramics is a holy grail in materials science,鈥 says Fratzl. 鈥淲ith the thinness, they鈥檝e achieved a very unusual effect.鈥 But he cautions that the technique may be difficult and expensive to scale up.

Journal reference: Science, DOI: 10.1126/science.1255908

Topics: Materials / Nanotechnology