Electric cables heat up because of resistance. When the current load exceeds the cable?s safe capacity, they get too hot and break. The researchers found nanotube fibers exposed to nitrogen performed best, followed by argon and open air, all of which were able to cool through convection. The same nanotube fibers in a vacuum could only cool by radiation and had the lowest CCC.
?The outcome is that these fibers have the highest CCC ever reported for any carbon-based fibers,? Kono said. ?Copper still has better resistivity by an order of magnitude, but we have the advantage that carbon fiber is light. So if you divide the CCC by the mass, we win.?