New Graphene Composites for Power Engineering |
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Authors: | Tadeusz Knych,Andrzej Mamala,Paweł Kwaś niewski,Grzegorz Kiesiewicz,Beata Smyrak,Marek Gnieł czyk,Artur Kawecki,Kinga Korzeń ,Eliza Sieja-Smaga |
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Affiliation: | Non-Ferrous Metals Faculty, AGH University of Science and Technology, 30-059 Krakow, Poland; (T.K.); (A.M.); (P.K.); (G.K.); (M.G.); (A.K.); (K.K.); (E.S.-S.) |
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Abstract: | Intensive research is underway worldwide to develop new conductive materials for applications in the power industry. Such tests aim to increase the electrical conductivity of materials for conductors and cables, thus increasing the current carrying capacity of the line and reducing the loss of electricity transmission. The scientific discovery of recent years, graphene, one of the allotropic types of carbon with very high electrical and thermal conductivity and mechanical strength, creates great opportunities for designing and producing new materials with above-standard operational properties. This project concentrates on developing technology for manufacturing aluminum-graphene and copper-graphene composites intended to be used to produce a new generation of power engineering conductors. In particular, we present the results of the research on the mechanical synthesis of aluminum-graphene and copper -graphene composites, as well as the results of the electric, mechanical, and structural properties of rods obtained after the extrusion process and wires after the drawing process. |
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Keywords: | graphene copper aluminum overhead conductors composite |
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