Obiettivo
The most common traditional materials used in electrical energy distribution systems are copper and copper alloys. Modern applications show an increasing demand for better heat and electric current carrying capacity at the level beyond copper base materials. Nanocarbon materials, such as carbon nanotubes and graphene have attracted attention due to their high electrical, thermal conductivity and exceptional mechanical properties.
It would appear that combining copper with high performance nanocarbons towards composite materials could offer immediate solution to problems encountered currently. Copper nanocarbon composites could form the next generation of conductors, where copper contributes the benefits of electrical conductivity, whereas nanocarbon brings to this composite its low weight, flexibility, mechanical reinforcement and thermal management. Recent breakthrough in the chirality control of carbon nanotubes could contribute significantly to the electrical conductivity of these composite materials beyond the performance achieved by bulk copper conductors.
The material and process costs required to achieve improvement of the overall performance of copper based electrical conductors, need to be compatible with large scale conductor manufacturing and overcome the issues such as the cost of the nanocarbons and the difficulty of scaling up the production processes.
This proposal is aimed at developing a copper nanocarbon composite with significantly improved overall properties, including electrical, thermal and mechanical performances over bulk copper. The proposal also aims to develop production process that will be scalable to large volume manufacture. A key breakthrough will be the development/modification of the continuous carbon nanotube fibre process originating from Cambridge University for copper composite production, an inherently larger volume process for the production of carbon nanotube with high degree of structural control and molecular orientation.
Campo scientifico
Programma(i)
Argomento(i)
Invito a presentare proposte
FP7-2013-NMP-ICT-FOF(RTD)
Vedi altri progetti per questo bando
Meccanismo di finanziamento
CP-FP - Small or medium-scale focused research projectCoordinatore
CB2 1TN Cambridge
Regno Unito
Mostra sulla mappa
Partecipanti (13)
02230 Espoo
Mostra sulla mappa
WC2N 5EH LONDON
Mostra sulla mappa
2250 OLEN
Mostra sulla mappa
02150 Espoo
Mostra sulla mappa
CB23 5BN Cambridge
Mostra sulla mappa
92400 Courbevoie
Mostra sulla mappa
30-059 Krakow
Mostra sulla mappa
49074 OSNABRUCK
Mostra sulla mappa
EH14 4AP Edinburgh
Mostra sulla mappa
78300 POISSY
Mostra sulla mappa
89079 ULM
Mostra sulla mappa
70771 Leinfelden-Echterdingen
Mostra sulla mappa
BS9 4HW BRISTOL
Mostra sulla mappa