An electrical connecting element includes a stretchable insulation sheet, two or more first conductive threads on one surface of the insulation sheet, and two or more first resin threads on the one surface of the insulation sheet. The first conductive threads extend in a predetermined direction and are disposed in parallel with each other orthogonally to the predetermined direction. The first resin threads have thermal adhesiveness. The first resin threads do not overlap with any of the first conductive threads.

An electrical transmission line cable suited for a variety of applications, including as a fishing line in a video fishing system. The electrical transmission line cable has a first conductor and a second conductor forming an electrical transmission line; a jacket containing the first conductor and the second conductor; and a transmission line primary dielectric element separating the first conductor and the second conductor, wherein the primary dielectric element is at least one of textile yarns, fiber yarns, or monofilaments. The electrical transmission line may be in a balanced configuration or an unbalanced configuration.

An electrical transmission line cable suited for a variety of applications, including as a fishing line in a video fishing system. The electrical transmission line cable has a first conductor and a second conductor forming an electrical transmission line; a jacket containing the first conductor and the second conductor; and a transmission line primary dielectric element separating the first conductor and the second conductor, wherein the primary dielectric element is at least one of textile yarns, fiber yarns, or monofilaments. The electrical transmission line may be in a balanced configuration or an unbalanced configuration.

A method of manufacturing a cable includes at least one elongated electrically conducting element and at least one composite layer surrounding the elongated electrically conducting element. The composite layer is obtained from at least one step of impregnation of a non-woven fibrous material with a geopolymer composition.

An insulated electric wire includes a linear conductor and one or a plurality of insulating layers formed on an outer peripheral surface of the conductor. At least one of the one or plurality of insulating layers contains a plurality of pores, outer shells are disposed on peripheries of the pores, and the outer shells are derived from shells of hollow-forming particles having a core-shell structure. A varnish for forming an insulating layer contains a resin composition forming a matrix and hollow-forming particles having a core-shell structure and dispersed in the resin composition. In the varnish, cores of the hollow-forming particles contain a thermally decomposable resin as a main component, and shells of the hollow-forming particles contain a main component having a higher thermal decomposition temperature than the thermally decomposable resin.

A separator for electrochemical elements includes beaten solvent-spun cellulose fibers and rayon fibers having a fiber diameter of 9.5 m or less. More preferably, the separator for electrochemical elements has a content of the rayon fibers relative to all fibers of 10 to 25% by mass, and can be applied to electrochemical elements such as electric double layer capacitors, hybrid capacitors, redox capacitors, and lithium secondary batteries. The separator can provide low internal short circuit failure rates and high surface strength.

A separator for electrochemical elements includes beaten solvent-spun cellulose fibers and rayon fibers having a fiber diameter of 9.5 m or less. More preferably, the separator for electrochemical elements has a content of the rayon fibers relative to all fibers of 10 to 25% by mass, and can be applied to electrochemical elements such as electric double layer capacitors, hybrid capacitors, redox capacitors, and lithium secondary batteries. The separator can provide low internal short circuit failure rates and high surface strength.

A thermally conductive, electrical insulating nonwoven material is described that comprises 20 wt. %-50 wt. % organic components, wherein the organic components comprise wherein the organic components comprise organic drawn fibers, organic bi-component binder fibers, and a polymer latex binder comprising at least one of an acrylic latex, an acrylic copolymer latex, a nitrile latex, and a styrene latex; and 50 wt. %-80 wt. % inorganic components wherein the inorganic components comprise a blend of thermally conductive fillers and clay. The organic bi-component binder fibers have a polymeric core and a sheath layer surrounding the polymeric core wherein the sheath layer has a lower melting point than the core.

The anisotropic conductive film of the present invention includes a resin base tape and a plurality of composite fibers disposed laterally in the resin base tape, wherein each of the composite fibers includes an electrically insulating fiber and a plurality of conductive rings circling the electrically insulating fiber, the conductive rings including a plurality of conductive particles collectively surrounding the electrically insulating fiber by adsorption, wherein the plurality of composite fibers are periodically arranged in the resin base tape along the extending direction of the resin base tape, and the plurality of conductive rings on each of the composite fibers are periodically arranged along the axial direction of the electrically insulating fiber thereof.

The anisotropic conductive film of the present invention includes a resin base tape and a plurality of composite fibers disposed laterally in the resin base tape, wherein each of the composite fibers includes an electrically insulating fiber and a plurality of conductive rings circling the electrically insulating fiber, the conductive rings including a plurality of conductive particles collectively surrounding the electrically insulating fiber by adsorption, wherein the plurality of composite fibers are periodically arranged in the resin base tape along the extending direction of the resin base tape, and the plurality of conductive rings on each of the composite fibers are periodically arranged along the axial direction of the electrically insulating fiber thereof.