The present disclosure relates to a coated carbon nanotube electric wire includes: a carbon nanotube wire including one or more carbon nanotube aggregates configured of a plurality of carbon nanotubes; and an insulating coating layer with which the carbon nanotube wire is coated, in which a proportion of a Young's modulus of a material configuring the insulating coating layer with respect to a Young's modulus of the carbon nanotube wire is equal to or greater than 0.0001 and equal to or less than 0.01.

The present disclosure relates to a carbon nanotube strand wire capable of realizing further weight reduction as compared with a wire configured of a core wire made mainly of metal such as copper or aluminum and achieving both satisfactory durability in bending and handling ability. A CNT strand wire is obtained by twisting a plurality of CNT wires of a plurality of bundled CNT aggregates configured of a plurality of CNTs together. At least a number of twists t1 of the CNT wires and a number of twists t2 of the CNT strand wire is equal to or greater than 1000 T/m.

An aluminum alloy wire composed of an aluminum alloy, wherein the aluminum alloy contains more than or equal to 0.03 mass % and less than or equal to 1.5 mass % of Mg, more than or equal to 0.02 mass % and less than or equal to 2.0 mass % of Si, and a remainder of Al and an inevitable impurity, Mg/Si being more than or equal to 0.5 and less than or equal to 3.5 in mass ratio, and the aluminum alloy wire has a dynamic friction coefficient of less than or equal to 0.8.

An aluminum alloy wire composed of an aluminum alloy, wherein the aluminum alloy contains more than or equal to 0.03 mass % and less than or equal to 1.5 mass % of Mg, more than or equal to 0.02 mass % and less than or equal to 2.0 mass % of Si, and a remainder of Al and an inevitable impurity, Mg/Si being more than or equal to 0.5 and less than or equal to 3.5 in mass ratio, and the aluminum alloy wire has a dynamic friction coefficient of less than or equal to 0.8.

Provided are an electric wire conductor having both flexibility and a space-saving property, a covered electric wire, and a wiring harness containing such an electric wire conductor. The electric wire conductor contains a plurality of elemental wires, and has a flat portion in which a cross-section intersecting an axial direction of the wire strand has a flat shape. Deformation ratios of the elemental wires at peripheral end parts in a width direction are 70% or lower of deformation ratios of the elemental wires at center parts. Further, a covered electric wire contains the electric wire conductor and an insulator covering the electric wire conductor.

Provided are an electric wire conductor having both flexibility and a space-saving property, a covered electric wire, and a wiring harness containing such an electric wire conductor. The electric wire conductor contains a plurality of elemental wires, and has a flat portion in which a cross-section intersecting an axial direction of the wire strand has a flat shape. Deformation ratios of the elemental wires at peripheral end parts in a width direction are 70% or lower of deformation ratios of the elemental wires at center parts. Further, a covered electric wire contains the electric wire conductor and an insulator covering the electric wire conductor.

A covered electrical wire including a conductor and an insulating coating layer covering the outer periphery of the conductor, in which the conductor is a twisted wire obtained by twisting together a plurality of elemental wires constituted by copper or a copper alloy, and the covered electrical wire includes a metallically bonded portion where the elemental wires that are adjacent to each other are metallically bonded to each other.

A covered electrical wire including a conductor and an insulating coating layer covering the outer periphery of the conductor, in which the conductor is a twisted wire obtained by twisting together a plurality of elemental wires constituted by copper or a copper alloy, and the covered electrical wire includes a metallically bonded portion where the elemental wires that are adjacent to each other are metallically bonded to each other.

A multi-core power cable for supplying AC power to an electrical device, the multi-core power cable including a plurality of core wires that are non-insulated stranded wires or non-insulated single-core wires; an insulative Y-shaped spacer that includes a center that is a solid portion that is made of an insulative resin and that extends in a longitudinal direction, and three plate-shaped walls that are formed of an insulative resin and that extend outward in a radial direction from the center, and that are provided between the plurality of core wires and isolates the plurality of core wires from each other, the spacer being configured to position the plurality of core wires in a trefoil formation; and an insulative sheath that collectively covers an outside of the plurality of core wires.

A multi-core power cable for supplying AC power to an electrical device, the multi-core power cable including a plurality of core wires that are non-insulated stranded wires or non-insulated single-core wires; an insulative Y-shaped spacer that includes a center that is a solid portion that is made of an insulative resin and that extends in a longitudinal direction, and three plate-shaped walls that are formed of an insulative resin and that extend outward in a radial direction from the center, and that are provided between the plurality of core wires and isolates the plurality of core wires from each other, the spacer being configured to position the plurality of core wires in a trefoil formation; and an insulative sheath that collectively covers an outside of the plurality of core wires.