Abstract: An electrical wire includes an aluminum element wire that has an aluminum base material and carbon nanotubes dispersed in the aluminum base material, in which the aluminum element wire has an electrical conductivity of 62% IACS or more and a tensile strength of 130 MPa or more. The aluminum base material is a polycrystal having a plurality of aluminum crystal grains. Further, a carbon nanotube conductive path, which is composed of the carbon nanotube, and forms a conductive path allowing electricity to conduct therethrough in a longitudinal direction of the aluminum element wire by being present in a part of grain boundaries between the plurality of aluminum crystal grains in a transverse cross section of the aluminum base material, and being present along the longitudinal direction of the aluminum element wire, is formed in the aluminum base material.

Abstract: A carbon nanotube composite material (1) includes a metal base material (10) and carbon nanotube electrically-conductive path portions (20). The metal base material (10) is made from a polycrystalline substance in which a plurality of rod-shaped metal crystal grains (11) are oriented in a direction. The carbon nanotube electrically-conductive path portions (20) are made from doped carbon nanotubes having a dopant, existing in parts of grain boundaries (15) between the rod-shaped metal crystal grains (11) in a cross section of the metal base material (10), and forming an electrically-conductive path which is electrically conductive in a longitudinal direction of the metal base material (10), by existing along the longitudinal direction (L).

Abstract: An electrical wire includes an aluminum element wire that has an aluminum base material and carbon nanotubes dispersed in the aluminum base material, in which the aluminum element wire has an electrical conductivity of 62% IACS or more and a tensile strength of 130 MPa or more. The aluminum base material is a polycrystalk having a plurality of aluminum crystal grains. Further, a carbon nanotube conductive path, which is composed of the carbon nanotube, and forms a conductive path allowing electricity to conduct therethrough in a longitudinal direction of the aluminum element wire by being present in a part of grain boundaries between the plurality of aluminum crystal grains in a transverse cross section of the aluminum base material, and being present along the longitudinal direction of the aluminum element wire, is formed in the aluminum base material.

Abstract: A carbon nanotube composite material (1) includes a metal base material (10) and carbon nanotube electrically-conductive path portions (20). The metal base material (10) is made from a polycrystalline substance in which a plurality of rod-shaped metal crystal grains (11) are oriented in a direction. The carbon nanotube electrically-conductive path portions (20) are made from doped carbon nanotubes having a dopant, existing in parts of grain boundaries (15) between the rod-shaped metal crystal grains (11) in a cross section of the metal base material (10), and forming an electrically-conductive path which is electrically conductive in a longitudinal direction of the metal base material (10), by existing along the longitudinal direction (L).