The invention relates to a method for affixing an end terminal to a solid carbon rod (1). The invention further relates to a splitting device applicable for carrying out the method according to the invention. The method is characterized in that it comprises at least the following steps: a) providing a solid carbon rod (1) cut to an appropriate length, b) splitting the carbon rod (1) into several smaller cable portions (3) along a predetermined split length (L1) in the direction of the longitudinal axis of the carbon rod (1), substantially without damaging the individual carbon fibres, where the cross-sectional size of the smaller cable portions (3) obtained through splitting is smaller than 5 mm.sup.2, preferably smaller than 2 mm.sup.2, more preferably smaller than 1 mm.sup.2. c) spacing apart the split cable portions (3) from each other in the radial direction of the cross section of the carbon rod (1), and forming—and, optionally, temporarily, fixing —a preferably conically shaped end portion (2) from the cable portions (3) thus obtained, d) affixing an end terminal (4, 5, 6) to the branched end portion. The device is characterized in that it comprises a centring clamp unit (9), a movable blade holder (7), and one or more blades (8) retained in the movable blade holder (7), where the movable blade holder (7) is situated opposite the centring clamp unit (9) and is configured such that it is slidable along the longitudinal axis of a carbon rod (1) retained in the centring clamp unit (9), and is rotatable about the axis of the retained carbon rod (1).

The invention is directed to an anchor sleeve (100) for an anchor system (1) suited for anchoring of a composite tension member (300). The anchor sleeve (100) comprises a sleeve base body (101) that has a receiving opening (105) configured to receive an anchor body (200) and extending from a sleeve front opening (121) arranged at a sleeve front end (120) to a sleeve rear opening (131) arranged at a sleeve rear end (130). The sleeve base body (101) is at least partially made from a fiber-reinforced plastic comprising reinforcing fibers whereof at least a portion is wound about the receiving opening (105).

The present disclosure relates to a cable comprising a cable core and an armor, the armor being formed by a plurality of consecutive sections of non-metallic tensile elements wound around the cable core, each section including a first non-metallic tensile element connected to a second non-metallic tensile element of the consecutive sections by a joint comprising a first socket and a second socket, each of said sockets comprising a flat body extending longitudinally along a longitudinal axis (S) between a proximal end and a distal end and comprising an inner through bore between a proximal aperture at the proximal end and a distal aperture at the distal end, the first and second non-metallic tensile elements having an end portion being housed in the inner through bore of respectively the first and second socket by the proximal aperture and secured therein by a bonding material, and each inner through bore being shaped to translationally and rotationally lock the bonding material; an interconnecting device translationally and rotationally locked in the distal apertures of the first and the second sockets and allowing the sockets to relatively rotate exclusively around at least one rotation axis (R) perpendicular to a plane where the socket body longitudinal axes (S) of the first and the second sockets lie.

An apparatus and method for terminating a multi-stranded, non-parallel cable. An anchor is provided on the end of each strand. A collector is provided to link the anchors and connected strands into a single unit. An alignment fixture is provided to transition the strands from the non-parallel lay within the cable to a parallel path adjacent to the anchors.

A termination system which improves the consistency and repeatability of the wicking of the liquid potting compound in the transition area between the potted and the imported filaments. The termination system controllably compresses the filaments within the transition area to produce repeatable wicking. The potting compound selected and the degree of compression employed combine to produce a desired wicking effect.

A protected synthetic tensile member assembly including one or more fixed terminations used to transmit a tensile load from the tensile member to an external component. The tensile member includes access for inspection of its constituent fibers in at least one selected inspection region. The region is selected on the basis of the area of interest to the tensile member's use—such as the area of greatest stress concentration, the area of greatest abrasion, or an area of likely strand-to strand or overall cable translation. A removable cover is provided for the inspection region. A user may selectively remove this cover in order to gain access to the inspection region.

An apparatus and method for terminating a multi-stranded, non-parallel cable. An anchor is provided on the end of each strand. A collector is provided to link the anchors and connected strands into a single unit. An alignment fixture is provided to transition the strands from the non-parallel lay within the cable to a parallel path adjacent to the anchors.

The invention is directed to an anchor sleeve (100) for an anchor system (1) suited for anchoring of a composite tension member (300). The anchor sleeve (100) comprises a sleeve base body (101) that has a receiving opening (105) configured to receive an anchor body (200) and extending from a sleeve front opening (121) arranged at a sleeve front end (120) to a sleeve rear opening (131) arranged at a sleeve rear end (130). The sleeve base body (101) is at least partially made from a fiber-reinforced plastic comprising reinforcing fibers whereof at least a portion is wound about the receiving opening (105).

An improved method and apparatus for securing remotely operated vehicles (ROVs) and other similar underwater equipment that require an umbilical power and/or communications cable to a docking collar termination.

A novel cable construction provides an armored covering over a cable containing high-strength synthetic filaments. The synthetic cable is provided with a strong and tough termination where it attaches to the prior art dragline or power shovel digging equipment. An external armoring is then provided from the termination for a specified distance up the cable. The armoring ceases prior to the point where the cable passes over a pulley. At that point the cable just carries a conventional encapsulating jacket. A collar is preferably provided to seal the end of the armoring portion to the jacket.