Coated conductors comprising a conductor and elongated polymeric coatings at least partially surrounding the conductor, where the elongated polymeric coatings comprise a polymeric matrix material and a plurality of microcapillaries containing an elastomeric polymeric material. Also disclosed are dies and methods for making such coated conductors.

Coated conductors comprising a conductor and elongated polymeric coatings at least partially surrounding the conductor, where the elongated polymeric coatings comprise a polymeric matrix material and a plurality of microcapillaries containing an elastomeric polymeric material. Also disclosed are dies and methods for making such coated conductors.

A insulated electric wire having an insulating layer containing a fluororesin, the insulated electric wire having a high flexibility with the heat resistance of the fluororesin maintained. The insulated electric wire is obtained by covering a conductor with an insulating layer containing a copolymer of a monomer expressed by a Formula (1) and a monomer expressed by a Formula (2). It is preferable that a copolymerization ratio of the monomer expressed by Formula (2) in the copolymer is at least 10 mass %. Note that Rf represents a perfluoroalkyl group including one or more ether bonds in its structure.

A insulated electric wire having an insulating layer containing a fluororesin, the insulated electric wire having a high flexibility with the heat resistance of the fluororesin maintained. The insulated electric wire is obtained by covering a conductor with an insulating layer containing a copolymer of a monomer expressed by a Formula (1) and a monomer expressed by a Formula (2). It is preferable that a copolymerization ratio of the monomer expressed by Formula (2) in the copolymer is at least 10 mass %. Note that Rf represents a perfluoroalkyl group including one or more ether bonds in its structure.

An electronic circuit module includes: a substrate on which a wiring pattern having an electrode portion is formed; a cable having an external insulator and a conductor portion, at least a distal end side of the external insulator being removed to expose a conductor, an exposed portion of the conductor being defined as the conductor portion; and an electronic component having terminals at least on two opposed faces of the electronic component. At least one of the terminals of the electronic component is directly connected to the conductor portion, and is configured to be electrically connected to the electrode portion through the conductor portion.

An electronic circuit module includes: a substrate on which a wiring pattern having an electrode portion is formed; a cable having an external insulator and a conductor portion, at least a distal end side of the external insulator being removed to expose a conductor, an exposed portion of the conductor being defined as the conductor portion; and an electronic component having terminals at least on two opposed faces of the electronic component. At least one of the terminals of the electronic component is directly connected to the conductor portion, and is configured to be electrically connected to the electrode portion through the conductor portion.

A coaxial cable comprises inner and outer conductors disposed along an elongate axis, a dielectric insulating material disposed between the inner and outer conductors, a compliant jacket disposed over the inner and outer conductors, and a compliant reinforcing outer layer disposed over the compliant inner jacket, the outer layer being physically separate from the inner jacket and comprising off-axis fibers to react loads incurred during one of two operating modes, i.e., an aerial and an in-ground operating mode.

A resin produced by a conventional technique has a weak nature in terms of hydrolysis resistance. For example, in a case where the resin produced by a conventional technique is used in an area with a highly humid climate such as Japan for a long period of time, deterioration of the resin due to hydrolysis becomes a concern. A resin composition is described that is optimized in the molecular structure design of the resin and in the catalyst in order to improve the hydrolysis resistance. Specifically, the resin composition contains (1) a copolymer of a vinyl compound having two or more epoxy groups, a carboxylic acid anhydride, and a transesterification reaction catalyst, or (2) a copolymer of a vinyl compound having two or more carboxylic acid anhydride groups, an epoxy, and a transesterification reaction catalyst.

A resin produced by a conventional technique has a weak nature in terms of hydrolysis resistance. For example, in a case where the resin produced by a conventional technique is used in an area with a highly humid climate such as Japan for a long period of time, deterioration of the resin due to hydrolysis becomes a concern. A resin composition is described that is optimized in the molecular structure design of the resin and in the catalyst in order to improve the hydrolysis resistance. Specifically, the resin composition contains (1) a copolymer of a vinyl compound having two or more epoxy groups, a carboxylic acid anhydride, and a transesterification reaction catalyst, or (2) a copolymer of a vinyl compound having two or more carboxylic acid anhydride groups, an epoxy, and a transesterification reaction catalyst.

A copolymer containing tetrafluoroethylene unit and a perfluoro(propyl vinyl ether) unit, wherein the copolymer has a content of the perfluoro(propyl vinyl ether) unit of 2.8 to 3.5% by mass with respect to the whole of the monomer units, a melt flow rate of 31 to 38 g/10 min, and the number of functional groups of 50 or less per 10.sup.6 main-chain carbon atoms, and the number of functional groups of —CF═CF.sub.2, —CF.sub.2H, —COF, —COOH, —COOCH.sub.3, —CONH.sub.2 and —CH.sub.2OH of 50 or less per 10.sup.6 main-chain carbon atoms. Also disclosed is an injection molded article, a member to be compressed and a coated electric wire including the copolymer.