DE202006004462U1 - Welded wired fence for gabion, has welded wires coated with composition of zinc-aluminum, where weight percentage of aluminum amounts to six-sixteen percent and weight percentage of zinc amounts to ninety four-eighty four percent - Google Patents

Abstract

The fence has welded wires with a diameter of 4.5 millimeter. The wires are coated with a composition of zinc-aluminum, where the weight percentage of aluminum amounts to 6-16 percent and the weight percentage of zinc amounts to 94-84 percent. The wires are cold drawn steel wires and are welded using electric spot welding. The coating contains additive silicon up to 5 percent. The coating contains additive magnesium from 1-2 percent.

Description

The The invention relates to a welded wire mesh for gabions for attachment of slopes or for the construction of walls.

gabions are known in different forms for a long time. Amongst other things They are used for the attachment of embankments or for construction from noise barriers Traffic routes.

in the In general, gabions consist of a mesh basket, which with Rubble, gravel or other material, depending on the application is filled. The mesh basket is usually made of steel wire.

The biggest problem of Gabions consists in the stability of the steel wire used, especially under the climatic conditions of Europe. On highways and highways will be the Gabionengitter particularly stressed by the salting of the roads in the winter. Especially with noise barriers Highways or highways would have one corrosion caused by failure of a grid severe consequences, because the traffic would be endangered by falling stones. Of Another is a repair of the grid with high financial cost and traffic disabilities.

in the Generally, the for Gabion grid used steel wire a thickness of 3.5 mm to 6.0 mm and a galfan coating to increase corrosion resistance according to DIN EN 10326. Galfan is a zinc-aluminum alloy coating with 5% aluminum content in the dipping bath. At the solidification of the coating Forms a crystal structure that differs from the well-known zinc flower structure differentiates from hot dip galvanized materials. The addition of 5% Aluminum leads to avoid intermetallic phases, which the forming behavior influence negatively. The wire can thereby depending on requirements be rolled and straightened. Zinc is a base metal as iron and thereby gives as an anode zinc electrons to the iron from. Even with a damaged one Zinc plating, if the base material steel is exposed, it comes with sufficient Moisture to form a galvanic element, which is the damaged area covers and protects. These protective layers are made of zinc carbonate and are formed by the action of carbon dioxide. This so-called white rust formation complicates the progression of corrosion until the zinc is used up is. Then the base material is exposed and it may be red rust form. From this one can conclude that with the zinc portion the coating increases the service life of the wire.

Gabion grid be welded in and braided shape. Braiding is much more complicated, and therefore causes much higher production costs. However, that is the production of welded Lattice so far more difficult because high demands on the welded joints be put. Advantageously, welded gabion lattices resistant to Shear stresses.

Out the above reasons There have been several years of low-cost, durable and corrosion-resistant grids for gabions to develop.

The Object of the present invention is a welded wire mesh for gabions suggest that has a much longer life.

According to the invention Wire for the grid with a zinc-aluminum mixture with a mass fraction Aluminum from 6% to 16% and a mass fraction of zinc from 84% to 94% coated. Surprisingly showed that the gabion grid according to the invention over the Prior art, a coating with a mass fraction of aluminum of 5% and a mass fraction of zinc of 95%, one in the salt spray test proven extension the service life of 200 to 300% achieved.

The cold drawn or hot rolled blank wires are initially used in the Continuous process with a mixture of zinc with a mass fraction of 84% to 94% and aluminum in a mass fraction of 6% to 16% coated. Subsequently, the crosswise positioned wires by means of electrical spot welding connected to a grid.

The Production costs for the gabion grid according to the invention differ only slightly from those of conventional Grid, with a 2 to 3 times longer life. The weldability of the wire is not affected by the innovative coating.

Preferably is the wire for the grid with a zinc-aluminum alloy with a mass fraction Aluminum from 8% to 12% and a mass fraction of zinc from 88% to 92% coated. In this area, the coating has a better formability.

The is especially for the subsequent bending of the projecting wire ends into eyelets of importance, to prevent the coating from flaking off.

In a preferred embodiment is the wire for the grid with a zinc-aluminum alloy with a mass fraction Aluminum of 10% and a mass fraction of zinc coated by 90%.

advantageously, is for the production of the gabion grid cold drawn steel wire used.

In Another preferred embodiment is the coating components even up to 0.05% silicon, based on the total mass of the coating, added. Silicon increases the adhesion of the coating.

In Another preferred embodiment is the coating components still magnesium with a mass fraction of 1% to 2%, based on the total mass of the coating added. Magnesium increases suppleness the coating.

The Add of magnesium or silicon is advantageous for subsequent forming / bending of the coated grid.

in the The invention will be explained below with reference to two exemplary embodiments.

1st embodiment

A welded gabion grid of 300 cm × 100 cm with a mesh size of 10 × 10 cm consists of welded wires with a wire diameter of 4.5 mm. The wire has a tensile strength of at least 450 N / mm ² and is coated with an alloy of zinc-aluminum with an aluminum content of 10% and an overlay of 300 g / m ² , which corresponds to a layer thickness of about 45 microns. Underlay is understood to mean the mass of the coating per unit area of the lateral surface of the coated wires. The welded joints were made by electric spot welding.

The described gabion grid was subjected to a salt spray test. The test was carried out in accordance with DIN 50 021 SS in a corrosion change test chamber: The test was terminated at a red rust content of 5%. A grid of identical dimensions and tensile strength, but with a coating of only 5% aluminum and an overlay of 350 g / m ² , achieved a reference value of 1050 hours in the described test. The grid according to the invention reached a service life of 2520 hours. This corresponds to a significant improvement in the service life of a factor of nearly 2.5 with reduced circulation.

2nd embodiment

A welded gabion grid of 100 cm × 100 cm with a mesh size of 10 × 5 cm consists of welded wires with a wire diameter of 3.5 mm. The wire has a tensile strength of at least 450 N / mm ² . The coating is a zinc-aluminum alloy with an aluminum content of 10% with an overlay of 350 g / m ² , which corresponds to a layer thickness of about 50 microns. The innovative coating was applied in a dipping bath. A reference sample coated with an alloy with 5 aluminum content and otherwise identical properties reached a lifetime of 1080 hours in the test. The gabion grid according to the invention achieved a service life of 3100 hours in the test. This corresponds to an increase of the standard time to 280%.

Claims (6)

welded Wire mesh for Gabions of steel wire with a wire diameter of 3.5 mm ≤ d ≤ 8 mm and a coating of a zinc-aluminum mixture with a mass fraction Aluminum from 6% to 16% and a mass fraction of zinc from 94% to 84%, welded Wire grid according to claim 1, characterized in that the mass fraction Aluminum 8% to 12% and the mass fraction of zinc is 92% to 88%. welded Wire grid according to claim 1, characterized in that the mass fraction Aluminum 10% and the mass fraction of zinc is 90%. welded Wire grid according to one of the preceding claims, characterized that the wire is a cold drawn steel wire. welded Wire grid according to one of the preceding claims, characterized that the coating contains additive up to 0.05% silicon. welded Wire grid according to one of the preceding claims, characterized that the coating contains additively 1% to 2% magnesium.