A solid ring-conductor assemblage (20) blocks water from migrating in the axial direction of an electrical stranded conductor (1). The solid ring-conductor assemblage (20) has a ring and an electrical stranded conductor. The diameter of an initial opening of the ring exceeds an outer diameter of the stranded conductor (1). The solid ring-conductor assemblage (20) is obtained by the process of placing the ring in an installed position where the electrical stranded conductor (1) runs through the initial opening. A compressive force (F) is applied onto the ring (2) in the installed position thereby compressing the ring (2) as well as the portion of the electrical stranded conductor (1) as covered by the ring into a compressed state. The compressed ring and the compressed portion of the electrical stranded conductor bonds as an entity providing the solid ring-conductor assemblage (20). A ring is provided to obtain the solid ring-conductor assemblage; a cable has a stranded electrical conductor where at least one ring is compressed around the electrical stranded conductor; and a method includes manufacturing an electrical stranded conductor arranged with at least one solid ring-conductor assemblage.

A compressed stranded conductor includes an inner layer strand having conductive wires which are twisted together, and an outer layer strand having conductive wires which are arranged around an outer periphery of the inner layer strand and are twisted together. The inner layer strand and the outer layer strand are compressed. An inner layer area reduction rate of one conductive wire of the inner layer strand is 29% or more and 32% or less. An outer layer area reduction rate of one conductive wire of the outer layer strand is 6% or more and 11% or less. A difference between the inner layer area reduction rate and the outer layer area reduction rate is 19% or more and 25% or less.

A high-frequency coaxial cable used for high-frequency signal transmission includes an inner conductor an insulator surrounding an outer periphery of the inner conductor; a shield conductor surrounding an outer periphery of the insulator and a covering surrounding an outer periphery of the shield conductor, wherein the inner conductor is a compressed conductor having a plurality of silver-plated soft copper element wires compressed.

An electric wire conductor includes a wire strand having a plurality of elemental wires twisted together. The wire strand includes a deformed part in which a cross-section of the wire strand intersecting an axial direction of the wire strand is formed into a flat shape in which a width of the cross section is larger than a height of the cross section, and an entire outer periphery of the cross section is formed as an outward curve. In the cross-section of the deformed part, the elemental wires have deformation ratios from a circle of 70% or lower at an outer peripheral part facing the outer periphery of the deformed part than at a center part located inside the outer peripheral part.

Embodiments of unitized fiber optic cables include a plurality of fiber optic subunits, with each fiber optic subunit including a plurality of optical fibers; a subunit jacket surrounding each fiber optic subunit; and a cable jacket surrounding the plurality of fiber optic subunits. At least some of the fiber optic subunits are non-circular upon positioning inside the cable jacket.

An electric wire conductor is excellent in space saving and flexibility and is less likely to concentrate a load on specific elemental wires, and a covered electric wire and a wire harness contain the electric wire conductor. The electric wire conductor contains a wire strand containing a plurality of elemental wires twisted together. The wire strand has a sector-shaped part in which a cross-section intersecting an axial direction of the wire strand contains either a single edge or two edges touching each other at an apex, and an outward curve connecting the ends of the single edge or the two edges. In the sector-shaped part, the elemental wires having deformation ratios from a circle lower at an outer peripheral part facing an outer periphery of the sector-shaped part than at a center part of the sector-shaped part located inside the outer peripheral part in the cross-section intersecting the axial direction.

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 electric wire includes a core wire made of a conductive metal, and an insulating covering that covers an outer circumference of the core wire. A part of at least one of the core wire and the insulating covering is formed with a flat part flatter than a rest of the at least one of the core wire and the insulating covering.

The present disclosure provides a bend-resistant wire, a preparation method therefor and a flexible display panel, and relates to the field of display technologies. The bend-resistant wire is formed on a side surface of a flexible substrate of a flexible display panel that is located in a fan-out region, the bend-resistant wire includes a conductive layer, the conductive layer has hollow parts formed corresponding to a bent region of the flexible substrate, and an area of each of the hollow parts in the bent region is positively correlated with a curvature of the corresponding bent region. An objective of the present disclosure is to provide the bend-resistant wire, the preparation method therefor and the flexible display panel, which can reduce a risk that a fan-out wire of the flexible display panel breaks when the flexible display panel is bent.

A compressed stranded conductor includes a central stranded wire having a plurality of conductive strands which are twisted together and an outer circumferential stranded wire having a plurality of conductive strands which are twisted together at an outer circumference of the central stranded wire. A composite stranded wire configured by the central stranded wire and the outer circumferential stranded wire is compressed, and an occupancy ratio of the composite stranded wire is 90.2% or more and 91.0% or less.