The present invention relates to a chain link comprising a strip comprising warp yarns and weft yarns, with the warp yarns containing warp yarn A and warp yarn B, with the minimum creep rate of warp yarn B being higher than the minimum creep rate of warp yarn A, wherein the strip comprises a longitudinal core section and at least two longitudinal edge sections, and wherein the concentration of warp yarn A in the core section is higher than the concentration of yarn A in the edge sections of the strip and the concentration of warp yarn B in the edge sections is higher than the concentration of warp yarn B in the core section of the strip. The invention also relates to a chain comprising said chain link and to use of said chain in different applications.

The present invention relates to a chain link comprising a strip comprising warp yarns and weft yarns, with the warp yarns containing warp yarn A and warp yarn B, with the minimum creep rate of warp yarn B being higher than the minimum creep rate of warp yarn A, wherein the strip comprises a longitudinal core section and at least two longitudinal edge sections, and wherein the concentration of warp yarn A in the core section is higher than the concentration of yarn A in the edge sections of the strip and the concentration of warp yarn B in the edge sections is higher than the concentration of warp yarn B in the core section of the strip. The invention also relates to a chain comprising said chain link and to use of said chain in different applications.

The invention relates to a load-bearing component (1) for the fastening, lashing, and/or lifting technology, such as a shackle, a snap hook, a hook, or a ring link. The component (1) comprises a plastic-metal composite system (4) which forms at least one load-bearing section (2) and at least one connection section (3). The load-bearing section (2) serves to fasten and/or suspend a load, for example, by use of a fastening device. The component (1) can with the aid of the connection section (3) be attached to an object, for example, to a load or a further component (1). In order to design the component (1) as light as possible while having a high load-bearing capacity, its is according to the invention provided the plastic-metal composite system (4) comprises a core (5) made of fiber-plastic composite (16) extending continuously from the load-bearing section (2) to the connection section (3) and comprising at least one outer shell (8) made of metal material and disposed on the load-bearing section (2) and/or the connection section (3). The outer shell (8) serves to transfer a force acting from the outside upon the component (1) across a large surface to core (5).

The invention relates to a load-bearing component (1) for the fastening, lashing, and/or lifting technology, such as a shackle, a snap hook, a hook, or a ring link. The component (1) comprises a plastic-metal composite system (4) which forms at least one load-bearing section (2) and at least one connection section (3). The load-bearing section (2) serves to fasten and/or suspend a load, for example, by use of a fastening device. The component (1) can with the aid of the connection section (3) be attached to an object, for example, to a load or a further component (1). In order to design the component (1) as light as possible while having a high load-bearing capacity, its is according to the invention provided the plastic-metal composite system (4) comprises a core (5) made of fiber-plastic composite (16) extending continuously from the load-bearing section (2) to the connection section (3) and comprising at least one outer shell (8) made of metal material and disposed on the load-bearing section (2) and/or the connection section (3). The outer shell (8) serves to transfer a force acting from the outside upon the component (1) across a large surface to core (5).

A chain includes a plurality of interconnected chain links, wherein at least one of the chain links comprises a Turk's head braided core having at least two consecutive turns of at least one primary strand. The at least one primary strand includes polymeric elongated elements having a tenacity of at least 1.0 N/tex.

A chain includes a plurality of interconnected chain links, wherein at least one of the chain links comprises a Turk's head braided core having at least two consecutive turns of at least one primary strand. The at least one primary strand includes polymeric elongated elements having a tenacity of at least 1.0 N/tex.

Mining machines such as continuous miners and chain haulage units may include chain conveyors that are capable of deflecting laterally in order to travel through lateral turns. The chain conveyors may include flight members for pushing or urging material along a pan. The chain may be driven by one or more sprockets. In one independent aspect, a link for a chain conveyor includes a body including a first end a second end opposite the first end, a first opening proximate the first end and extending in a direction transverse to a direction of travel of the link, a second opening proximate the second end and extending in a direction transverse to the direction of travel of the link, and a relief opening extending through the link body and positioned between the first end and the second end.

A link plate of a pin, bush, or roller chain, the link plate having two through-holes for one pin each, and wherein the through-holes are formed between two link plate base areas, and wherein a distance-indicating marker is applied to at least one base area.

A link plate of a pin, bush, or roller chain, the link plate having two through-holes for one pin each, and wherein the through-holes are formed between two link plate base areas, and wherein a distance-indicating marker is applied to at least one base area.

The design of chain links for energy chains for movably carrying cables, hoses and the like. The chain link consists of a plurality of individual parts, namely two side plates made of plastic, comprising an interior side facing the interior of the chain link, an exterior side facing away therefrom and two narrow sides running substantially parallel to the longitudinal direction, and at least one, more particularly two transverse connecting pieces for detachably connecting the side plates, comprising a center part and a fastening portion at each end of the transverse connecting piece on both sides. The side plates have, on at least one narrow side, a corresponding fastening region for frictionally fastening a transverse connecting piece, namely a clamping receptacle which has two clamping surfaces, which are opposite one another in the longitudinal direction and between which a complementarily shaped fastening portion of the at least one separate transverse connecting piece is clamped. Each transverse connecting piece has two support protrusions on each fastening portion, each support protrusion having a support surface for resting against the interior side of the side plate in order to achieve a robust connection. Providing the side plate, in the central region between the fastening regions, with a special functional cut-out in the plate body, which cut-out facilitates additional functions or application expansions.