Video feature: Graphene holds promise as body armour

New research from Rice University suggests graphene could be used to make strong body armour and to protect spacecraft. Researchers tested a graphene sheet by firing ‘microbullets’ at it and found it stretched, created a conical deformation before breaking, suggesting the force had been distributed over a large area, dissipating much of the energy.


The Rice University team conducted miniature ballistic tests by firing microscopic projectiles at sheets of graphene, each consisting of a single layer of carbon atoms arranged in a honeycomb structure.

Using the energy from a laser to drive microbullets at great speed from the opposite side of an absorbing gold surface, the laser-induced projectile impact test (LIPIT) evaluated graphene sheets ranging from 10nm to 100nm thick.

A high-speed camera was used to capture images of the projectiles before and after hits, to judge their speed and microscope images of the damage to the sheets.

In each case, the 3.7-micron spheres punctured the grapheme, but left a fractured pattern of 'petals' around the point of impact rather than a neat hole, indicating that graphene stretched before breaking.

The experiments confirmed that graphene works as a stretchy membrane to distribute the stress of the bullet over a wide area defined by a shallow cone centred at the point of impact, in about three nanoseconds before puncture.

While tensile stress cannot travel faster than the speed of sound in materials, in graphene it was found to be much faster than the speed of sound in air, which is 1,125ft/sec.

Rice University George R. Brown School of Engineering William and Stephanie Sick Dean, Edwin Thomas, said: "For graphene, we calculated the speed at 22.2km per second, which is higher than any other known material. The game in protection is getting the stress to distribute over a large area.We're working to demonstrate to NASA and the military that these microscopic tests are relevant to macroscopic properties."

Supported by the US Defense Threat Reduction Agency and the Welch Foundation, the research indicated that controlled layering of graphene sheets could lead to lightweight, energy-absorbing materials.

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