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A breakthrough in carbon nanotube composite materials could lead to superior body armor.  (Source: Agile Nano)

[Click to enlarge] The addition of polymer, cross linked by heat treatment, resists lateral motion, strengthening the carbon nanotube yarn.  (Source: ACS Nano/Northwestern University/Horacio Espinosa)

[Click to enlarge] The new material stacks up favorably to kevlar and has plenty of room for even more improvement.  (Source: ACS Nano/Northwestern University/Horacio Espinosa)
Mixture could lead to futuristic body armor, parachutes, and more

The chief goal of industrial chemistry is to produce compounds with useful characteristics at as low a price as possible.  Researchers from Northwestern University and various other institutions, along with corporate partners, have certainly fulfilled the first objective.  They have created an exotic blend of polymer and the ubiquitous nanomaterial, carbon nanotubes, that is stronger than Kevlar.

The new material has extremely high specific strength and energy-to-failure ratios.  That means that it can absorb a lot of impact without tearing, which in turn means that the force of the impact will spread out rather than be concentrated in a single destructive point.  The yarn was produced from double-walled carbon nanotubes and cross-linkable organic polymers like polyvinylalcohol (PVA).

Interestingly, the yarn fibers themselves had strength characteristics slightly inferior to kevlar.  For the engineers out there, the maximal reported values for ductility was ~20%, ~100Jg
-1 for the energy to failure ratios, and ~1.4GPa for the specific strength.  But when the fiber bundles were woven together, forming a macro-fiber with specific strength of ~6 GPa and energy to failure ratios of ~500Jg-1.

These materials of the woven cloth compared favorably to the 3 GPa strength of kevlar and its approximately 30 Jg
-1 energy to failure ratio.  In other words, that's good enough to substantiate the University's claim that the material "could be tougher than Kevlar", at least to some extent.

Heat treatment is one key to increasing the energy to failure ratio, likely because it activates the polymer cross-linking.

Engineering professor Horacio Espinosa led the study.  He states, "We want to create new-generation fibers that exhibit both superior strength and toughness.  A big issue in engineering fibers is that they are either strong or ductile — we want a fiber that is both. The fibers we fabricated show very high ductility and a very high toughness. They can absorb and dissipate large amounts of energy before failure. We also observed that the strength of the material stays very, very high, which has not been shown before. These fibers can be used for a wide variety of defense and aerospace applications."

The research was significant as past strength tests focused on pure-nanotube mixtures, which had the tendency for the tubes to slip laterally when stressed, weakening the resulting material.  The new composite material is much stronger as the polymers fix the nanotubes in place.

The research was funded by a $7.5M USD grant from the Army Research Office to investigate new materials for next generation bulletproof vests, parachutes, or composite materials used in vehicles, airplanes and satellites.  The project is part of the Department of Defense’s Multidisciplinary University Research Initiative (MURI) program, which promotes defense-minded projects that require a variety of engineering fields to collaborate.

The study on the intriguing new material is titled "A Multiscale Study of High Performance Double-Walled Nanotube−Polymer Fibers" and is published in the journal 
ACS Nano.

While future work will focus in part on refining the material strength even further, the crucial next step will be refining methods to mass produce the fibers.  A great deal of work has already been put into mass producing carbon nanotubes, so commercial super-strong carbon-polymer-based body armor may not be as far off as one might think.



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RE: Is this new?
By nstott on 12/6/2010 3:01:35 PM , Rating: 2
Those composites are made with standard off-the-shelf polymers. Zyvex was making new polymers in the early 2000s specifically for CNT compatibility, and we had a member of the US Army at the opening ceremony of ISN around the same time thanking our researchers for developing the stronger-than-Kevlar CNT/polymer chest plate that saved his life. I haven't had time to look at the paper yet, so maybe there are other improvements with this more recent work.


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