A rodent repellent cable has an outer protective jacket for housing the cable's internal components. The internal components include at least a means for facilitating transmission of electrical current or data, and a repellent bonded to at least one component of the cable. The means for facilitating transmission of electrical current or data include, but are not limited to, wires and optical fibers. The cable may include additional internal components, such as one or more separators and a sheath. The repellent is configured to repel rodents, based on a negative olfactory stimulus when the rodents are subjected to the repellent. This will deter rodents from chewing on wire or cable containing the repellent, which will significantly reduce the incidence of fires of undetermined origin and rodent-inflicted damage to wiring systems universally.

A method of manufacturing a wire harness having an electric wire and a protection tube covering, one end side of the electric wire being provided with a large-dimension portion greater than an inner dimension of the protection tube, including shaping the electric wire protection tube made of shape-memory polymer into a tube shape; expanding the protection tube by heating to a temperature equal to or higher than a glass-transition point such that the inner dimension of the protection tube becomes larger than the large-dimension portion; cooling the protection tube to a temperature below the glass-transition point and solidifying the protection tube; passing the large-dimension portion and the electric wire inside the protection tube; and reheating the electric wire protection tube to a temperature equal to or higher than the glass-transition point such that the electric wire protection tube is restored to the inner dimension obtained after the step of shaping.

A non-magnetic stainless steel wire with an adherent corrosion resistant coating is disclosed. The surface of the non-magnetic stainless steel is pre-treated so as to be sufficiently free from oxides and form a good adhesion with the above corrosion resistant coating. The non-magnetic stainless steel wire is used as a armoring wire for a power cable for transmitting electrical power.

A system includes a cable passing from a first plate to a second plate via an intermediate plate, an attachment coupling the cable to the intermediate plate, and a conductive cladding connected to an outer surface of the cable and extended a first length from the attachment toward the second plate. The total length of the thermally conductive cladding is larger than the total length of the attachment, and the cable is thermally connected to the first plate, the second plate, and the intermediate plate.

A system includes a cable passing from a first plate to a second plate via an intermediate plate, an attachment coupling the cable to the intermediate plate, and a conductive cladding connected to an outer surface of the cable and extended a first length from the attachment toward the second plate. The total length of the thermally conductive cladding is larger than the total length of the attachment, and the cable is thermally connected to the first plate, the second plate, and the intermediate plate.

The present invention relates to the field of anti-icing material preparation, and in particular to a durable active anti-icing conductor for use in a low-temperature and high-humidity environment, and a method for preparing the same. The conductor comprises a dendritic composite porous structure formed on an aluminum substrate; the dendritic composite porous structure is configured to comprise an upper layer and a lower layer; a pore diameter of an upper pore in the upper layer is smaller than a pore diameter of a lower pore in the lower layer; a pore depth ratio of the upper pore to the lower pore is less than 1:2; both the upper pore and the lower pore are filled with a modifier and a lubricant.