A process of producing a yarn, ribbon or sheet that includes nanofibers in which the process includes forming a yarn, ribbon or sheet comprising nanofibers, and applying an enhancing agent comprising a polymer to the yarn, ribbon or sheet.

A copper alloy wire, a copper alloy twisted wire, a covered electric wire, and a wiring harness that have high strength and excellent impact resistance. A copper alloy wire for use as a conductor has a ratio of 0.2% proof stress to tensile strength that is 0.87 or less. A copper alloy twisted wire includes a plurality of the twisted copper alloy wires. A covered electric wire includes a conductor including the copper alloy wire and an insulation cover that covers an outer periphery of the conductor. A wiring harness includes the covered electric wire, and a terminal metal fitting that is attached to the conductor of the covered electric wire.

A copper alloy wire, a copper alloy twisted wire, a covered electric wire, and a wiring harness that have high strength and excellent impact resistance. A copper alloy wire for use as a conductor has a ratio of 0.2% proof stress to tensile strength that is 0.87 or less. A copper alloy twisted wire includes a plurality of the twisted copper alloy wires. A covered electric wire includes a conductor including the copper alloy wire and an insulation cover that covers an outer periphery of the conductor. A wiring harness includes the covered electric wire, and a terminal metal fitting that is attached to the conductor of the covered electric wire.

A conductive cable for a battery electric vehicle is provided. The conductive cable comprises a plurality of first members in alignment to define a longitudinal axis of the conductive cable. Each first member comprises a first conductive wire about which a first outer layer is disposed for electric current to flow therethrough relative to the longitudinal axis. The first outer layer comprises a first metal substrate having a first side and an opposite second side. The first outer layer comprises a first copper-graphene (Cu-Gr) multilayer composite disposed on the first side and a second Cu-Gr multilayer composite disposed on the second side of the first metal substrate. Each first conductive wire comprises a first metallic material. The plurality of first members is disposed together along the longitudinal axis to define a cable bundle. The conductive cable further comprises a non-conductive layer disposed about the cable bundle.

A conductive cable for a battery electric vehicle is provided. The conductive cable comprises a plurality of first members in alignment to define a longitudinal axis of the conductive cable. Each first member comprises a first conductive wire about which a first outer layer is disposed for electric current to flow therethrough relative to the longitudinal axis. The first outer layer comprises a first metal substrate having a first side and an opposite second side. The first outer layer comprises a first copper-graphene (Cu-Gr) multilayer composite disposed on the first side and a second Cu-Gr multilayer composite disposed on the second side of the first metal substrate. Each first conductive wire comprises a first metallic material. The plurality of first members is disposed together along the longitudinal axis to define a cable bundle. The conductive cable further comprises a non-conductive layer disposed about the cable bundle.

A composite twisted wire conductor has a plurality of aggregated twisted wires formed by primarily twisting a plurality of conductive metal strands. The conductor includes a center aggregated twisted wire which is an aggregated twisted wire positioned on the most center side of a section, a first layer composite twisted wire formed by mainly twisting a plurality of aggregated twisted wires provided to overlap the periphery of the center aggregated twisted wire, and a second layer composite twisted wire formed by mainly twisting a plurality of aggregated twisted wires provided to overlap the periphery of the first layer composite twisted wire. The center aggregated twisted wire is primarily twisted in a first direction. The first layer composite twisted wire is primarily and mainly twisted in a second direction opposite to the first direction. The second layer composite twisted wire is primarily and mainly twisted in the first direction.

A composite twisted wire conductor has a plurality of aggregated twisted wires formed by primarily twisting a plurality of conductive metal strands. The conductor includes a center aggregated twisted wire which is an aggregated twisted wire positioned on the most center side of a section, a first layer composite twisted wire formed by mainly twisting a plurality of aggregated twisted wires provided to overlap the periphery of the center aggregated twisted wire, and a second layer composite twisted wire formed by mainly twisting a plurality of aggregated twisted wires provided to overlap the periphery of the first layer composite twisted wire. The center aggregated twisted wire is primarily twisted in a first direction. The first layer composite twisted wire is primarily and mainly twisted in a second direction opposite to the first direction. The second layer composite twisted wire is primarily and mainly twisted in the first direction.

An umbilical for use in the offshore production of hydrocarbons comprising an assembly of functional elements at least one of which is an electrical power cable, characterised in that at least one conductor of at least one electrical power cable comprises one or more 6000 series aluminium strands.

An overhead wire has a wire core having a main core and a plurality of auxiliary cores spirally and tightly stranded on the main core, and a conducting layer coating the wire core and having at least one aluminum wire layer. The main core and the auxiliary cores has fiber resin strands formed by fiber filament bundles permeated with resin through moulding, and fiber filaments wound on and completely covering the fiber resin strands such that the fiber resin strand is isolated from the outside, and the at least one aluminum wire layer has a plurality of aluminum wires spirally and tightly stranded on the wire core.

An overhead wire has a wire core having a main core and a plurality of auxiliary cores spirally and tightly stranded on the main core, and a conducting layer coating the wire core and having at least one aluminum wire layer. The main core and the auxiliary cores has fiber resin strands formed by fiber filament bundles permeated with resin through moulding, and fiber filaments wound on and completely covering the fiber resin strands such that the fiber resin strand is isolated from the outside, and the at least one aluminum wire layer has a plurality of aluminum wires spirally and tightly stranded on the wire core.