The invention relates to a masonry reinforcement structure (100) comprising at least two assemblies (102) of grouped metal filaments, at least one positioning element (104) for positioning the assemblies (102) of grouped metal filaments in a predetermined position and a polymer coating (110) for securing the assemblies (102) of grouped metal filaments in this predetermined position. The invention also relates to a method of manufacturing such masonry reinforcement structure (100) and to a roll comprising such a masonry reinforcement structure (100). The invention further relates to masonry reinforced with such masonry reinforcement structure (100) and to a method to apply such masonry reinforcement structure (100).

A wire netting, in particular a safety net, has a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, made of a high-tensile steel, and which includes a plurality of legs, which has a plurality of bending regions respectively connecting two legs, and which has a transverse extension along a frontal direction, perpendicularly to a main extension plane of the helix, wherein, in a press test between parallel plates, including a pressing by moving the plates along a press path in parallel to the frontal direction, a test piece of the helix, taken from the helix and including at least five legs and at least four bending regions, shows a spring characteristic curve which has in a press path force diagram, starting from a start of the press path, a first partial characteristic curve extending at least approximately linearly and having a first gradient.

A lattice structure, in particular a steel lattice structure, includes at least one longitudinal element and includes at least one edge element which runs perpendicularly or obliquely with respect to the longitudinal element, is embodied as a single wire, rod, wire strand, tube or profile and forms in particular at least a portion of a lattice edge, wherein the longitudinal element is wound multiple times around the edge element for its fastening to the edge element in a fastening region of the edge element.

A steel wire netting, in particular a hexagonal netting, made of steel wires includes hexagonal meshes, in particular for civil engineering purposes, preferably for an application in the field of protection from natural hazards, wherein the steel wires are alternatingly twisted with neighboring steel wires and wherein the steel wires are formed from a high-tensile steel or at least have a wire core made of a high-tensile steel, wherein an, in particular average, ratio calculated from an, in particular average, mesh width of the hexagonal meshes and an, in particular average, mesh height of the hexagonal meshes, measured perpendicularly to the mesh width, amounts to at least 0.75, preferably to at least 0.8.

A wire netting, in particular a safety net, has a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, made of a high-tensile steel, and which includes a plurality of legs, which has a plurality of bending regions respectively connecting two legs, and which has a transverse extension along a frontal direction, perpendicularly to a main extension plane of the helix, wherein, in a press test between parallel plates, including a pressing by moving the plates along a press path in parallel to the frontal direction, a test piece of the helix, taken from the helix and including at least five legs and at least four bending regions, shows a spring characteristic curve which has in a press path force diagram, starting from a start of the press path, a first partial characteristic curve extending at least approximately linearly and having a first gradient.

A wire netting, in particular a safety net, includes a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, in particular made of a high-tensile steel. The wire is bendable in a reverse bend test in opposite directions, by at least 90 respectively, about at least one bending cylinder having a diameter of maximally 2 d, at least M times without breaking, wherein M may be determined (by rounding down if applicable) to be C.Math.R.sup.0.5.Math.d.sup.0.5 and wherein a diameter d of the wire is given in mm, R is a tensile strength of the wire in N mm.sup.2 and C is a factor of at least 400 N.sup.0.5 mm.sup.0.5

A net and method for creating the same, the net comprising: cables in two or more directions, wherein the cables in each of the directions are made of at least a first construct or a second construct, wherein each cable of a first construct in the first direction has neighboring cables in the first direction made of the second construct, and each cable of the first construct in the second direction has neighboring cables in the second direction made of the second construct.

An edge finishing for a mesh formed by interlacing adjacent wire pickets, each picket formed in a zig-zag manner, the edge finishing comprising two interlinked loops where a first loop is formed from a first picket of the adjacent pickets and a second loop is formed from a second picket of the adjacent pickets, wherein the first loop and the second loop are interlocked together, via first and second loop-ends, at an intersection of the first picket and the second picket.

A wire netting, in particular a safety net, with a plurality of helices which are braided with each other, of which at least one helix is bent from at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, in particular comprises a high-tensile steel, the at least one helix having at least one first leg, at least one second leg as well as at least one bending region connecting the first leg and the second leg to each other, wherein the longitudinal element is bent at least substantially torsion-free in itself along a contour of the first leg and/or of the second leg.

A wire netting, in particular a safety net, with a plurality of helices which are braided with each other, of which at least one helix is bent from at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, in particular comprises a high-tensile steel, the at least one helix having at least one first leg, at least one second leg as well as at least one bending region connecting the first leg and the second leg to each other, wherein the longitudinal element is bent at least substantially torsion-free in itself along a contour of the first leg and/or of the second leg.