A seal structure that includes: a multicore cable in which first to fourth electrical wires are enveloped by a sheath, the electrical wires extending out from an end portion of the sheath; a rubber plug through which the electrical wires pass, the rubber plug being fitted around the end portion of the sheath; a cap that is fitted around the rubber and presses the rubber plug inward; and a crimping member that is arranged adjacent to the rubber plug and is crimped around the sheath. The crimping member has a locking piece and a mating portion, and the cap has an extending piece and a receiving recession portion. Relative positions of the crimping member and the rubber plug are held by the mating portion of the locking piece and the receiving recession portion of the extending piece locking together.

Flexible pipe body, a flexible pipe and a method of manufacturing pipe body are disclosed. The flexible pipe body comprises a tensile armour layer and a supporting layer radially outside, or radially inside, and in an abutting relationship with the tensile armour layer. The supporting layer comprises a helically wound constraining tape element and a helically wound electrically conductive tape element.

A grommet includes a cylindrical portion and an attachment portion formed to project from an outer peripheral portion of the cylindrical portion. An annular groove into which an inner peripheral edge portion of the through-hole can be fitted is formed in an outer peripheral portion of the attachment portion. A bottom face of the annular groove is formed with a racetrack shape having a pair of straight portions and a pair of arc portions that are formed with an outwardly convex arc shape and respectively connect end portions of the pair of straight portions on one side and end portions on the other side. Inner peripheral portions of the arc portions include portions in which the thickness dimension gradually increases from the centers of the arc portions toward connection portions that connect the arc portions to the straight portions.

A grommet includes a cylindrical portion and an attachment portion formed to project from an outer peripheral portion of the cylindrical portion. An annular groove into which an inner peripheral edge portion of the through-hole can be fitted is formed in an outer peripheral portion of the attachment portion. A bottom face of the annular groove is formed with a racetrack shape having a pair of straight portions and a pair of arc portions that are formed with an outwardly convex arc shape and respectively connect end portions of the pair of straight portions on one side and end portions on the other side. Inner peripheral portions of the arc portions include portions in which the thickness dimension gradually increases from the centers of the arc portions toward connection portions that connect the arc portions to the straight portions.

Provided are a core electric wire for a multi-core cable superior in flex resistance at low temperature, and a multi-core cable employing the same. The core electric wire for a multi-core cable according to an aspect of the present invention comprises a conductor obtained by twisting element wires, and an insulating layer covering the conductor, a principal component of the insulating layer being a copolymer of ethylene and an α-olefin having a carbonyl group; the α-olefin content in the copolymer being 14% to 46% by mass; and a mathematical product C*E being 0.01 to 0.9, wherein C is a linear expansion coefficient of the insulating layer at from 25° C. to −35° C., and E is a modulus of elasticity thereof at −35° C. Average area of the conductor in the transverse cross section is 1.0 to 3.0 mm.sup.2. Average diameter of the element wires in the conductor is 40 to 100 μm, and number of the element wires is 196 to 2,450.

A power cable can include a conductor; an insulation layer disposed about the conductor where the insulation layer includes a first polymeric material; and a shield layer disposed about the insulation layer where the shield layer includes a second polymeric material where a solubility parameter of the first polymeric material is less than a solubility parameter of the second polymeric material.

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 defining individual, discrete void spaces. Such coated conductors are lighter in weight relative to coated conductors having polymeric coatings without microcapillaries. 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 defining individual, discrete void spaces. Such coated conductors are lighter in weight relative to coated conductors having polymeric coatings without microcapillaries. Also disclosed are dies and methods for making such coated conductors.

An electric field control device for a high voltage cable includes a stress cone and a field grading adapter, wherein the stress cone and the field grading adapter are chemically bonded by vulcanization. An electric installation includes a power cable and the electric field control device. A method for producing the electric field control device is also disclosed.

A system and method is disclosed. The method comprises a client device receiving a verification request comprising an interaction identifier. The client device can then query a full node for a random sampling of block headers from the full node. The client device can receive the random sampling of block headers from the full node, and verify the random sampling of block headers. The client device can then determine that the blockchain maintained by the full node is valid after verifying the random sampling of block headers.