This application provides a composite film for a cable wrapping layer and a preparation method for the same. The composite film for the cable wrapping layer includes a PE film layer, a PET film layer laminated at the PE film layer, an aluminum foil layer laminated at the PET film layer, and a bonding layer arranged between the PET film layer and the aluminum foil layer. The PE film layer is made of raw materials having the following parts by weight: 40-45 parts of LLDPE with a melt index of 0.9-1.1 g/10 min and a density of 0.920-0.922 g/cm.sup.3, 35-40 parts of m-LLDPE with a melt index of 1.9-2.1 g/10 min and a density of 0.917-0.920 g/cm.sup.3 and 15-25 parts of ethylene-vinyl acetate copolymer.

A securing sleeve for securing a shield of an electric conductor to a shielding contact includes a securing section having a bottom disposed between a pair of wings. The bottom supporting the electric conductor. The wings are spaced apart at a free end of each of the wings distal from the bottom by a slot extending in an axial direction in an open state of the securing sleeve. The wings have a plurality of complementary positive locking element at the free ends that secure the securing sleeve in a circumferential direction in a closed state.

A securing sleeve for securing a shield of an electric conductor to a shielding contact includes a securing section having a bottom disposed between a pair of wings. The bottom supporting the electric conductor. The wings are spaced apart at a free end of each of the wings distal from the bottom by a slot extending in an axial direction in an open state of the securing sleeve. The wings have a plurality of complementary positive locking element at the free ends that secure the securing sleeve in a circumferential direction in a closed state.

A wiring member includes a wire-like transmission member including a transmission wire body and a covering layer covering the transmission wire body; a first sheet including a first fusion layer having contact with the wire-like transmission member and provided on one side of the wire-like transmission member; and a second sheet including a second fusion layer having contact with the wire-like transmission member and provided on another side of the wire-like transmission member. The covering layer is fused to each of the first fusion layer and the second fusion layer.

A wiring member includes a wire-like transmission member including a transmission wire body and a covering layer covering the transmission wire body; a first sheet including a first fusion layer having contact with the wire-like transmission member and provided on one side of the wire-like transmission member; and a second sheet including a second fusion layer having contact with the wire-like transmission member and provided on another side of the wire-like transmission member. The covering layer is fused to each of the first fusion layer and the second fusion layer.

A flex-resistant shielded composite cable includes a plurality of electric wires, a shielding layer and a tubular sheath. Each of the electric wires includes a conductor part which is composed of a twisted wire, which is formed by twisting a plurality of strands having a diameter of 0.05 mm or more and 0.12 mm or less, a nominal sectional area of the conductor being 8 sq or more, a covering part covering the conductor part. The shielding layer is formed of a braid formed by braiding plated fiber formed by performing metal-plating on anti-tension fiber and covers outer periphery of the plurality of electric wires. The tubular sheath is provided on the outer periphery of the shielding layer and made of an insulating resin.

A flex-resistant shielded composite cable includes a plurality of electric wires, a shielding layer and a tubular sheath. Each of the electric wires includes a conductor part which is composed of a twisted wire, which is formed by twisting a plurality of strands having a diameter of 0.05 mm or more and 0.12 mm or less, a nominal sectional area of the conductor being 8 sq or more, a covering part covering the conductor part. The shielding layer is formed of a braid formed by braiding plated fiber formed by performing metal-plating on anti-tension fiber and covers outer periphery of the plurality of electric wires. The tubular sheath is provided on the outer periphery of the shielding layer and made of an insulating resin.

Disclosed is a flame retardant resin composition comprising a polyolefin resin, calcium carbonate particles blended at a ratio of 5 pts. mass to 80 pts. mass, aluminum hydroxide blended at a ratio of 50 pts. mass to 125 pts. mass, a silicone-based compound blended at a ratio of more than 1 pt. mass and 10 pts. mass or less, a fatty acid-containing compound blended at a ratio of 3 pts. mass to 20 pts. mass, and a zinc-containing inorganic compound blended at a ratio of 1 pt. mass to 7 pts. mass, all relative to 100 pts. mass of the polyolefin resin. In the flame retardant resin composition, the calcium carbonate particles and the aluminum hydroxide are blended in total at a ratio of 55 pts. mass to 130 pts. mass relative to 100 pts. mass of the polyolefin resin.

A method according to the teachings of the present disclosure may include disposing a sheath around a conductor assembly, with an outer surface of the sheath defining spaced apart crowns and valleys. An outlet of at least one ink jet print head may be positioned adjacent the sheath at an angle of 60 degrees to 120 degrees with respect to a longitudinal axis of the sheath. The method may also include using at least one ink jet print head to print marking indicia on the sheath, the marking indicia indicating at least characteristic of the electrical cable assembly.

A method according to the teachings of the present disclosure may include disposing a sheath around a conductor assembly, with an outer surface of the sheath defining spaced apart crowns and valleys. An outlet of at least one ink jet print head may be positioned adjacent the sheath at an angle of 60 degrees to 120 degrees with respect to a longitudinal axis of the sheath. The method may also include using at least one ink jet print head to print marking indicia on the sheath, the marking indicia indicating at least characteristic of the electrical cable assembly.