DE102007042211A1 - Hot metallizing gabions with a liquid zinc-aluminum-alloy, by heat treating the gabions or its part in oven with reduced gas atmosphere containing hydrogen and/or carbon monoxide and immersing the gabions in the liquid zinc-aluminum-alloy - Google Patents

Abstract

The method for hot metallizing gabions with a liquid zinc-aluminum-alloy, comprises heat treating the gabions or its part in an oven (1) with a reduced gas atmosphere containing hydrogen and/or carbon monoxide at 550-800[deg] C, immersing the heated gabions or its part in the liquid zinc-aluminum-alloy by a nozzle (2) flowing under the surface of the alloy bath, removing the gabions or its part from the liquid zinc-aluminum melt (4) and then cooling by air. The zinc aluminum alloy comprises an aluminum content of 3-65 wt.%, and a eutectic composition. The method for hot metallizing gabions with a liquid zinc-aluminum-alloy, comprises heat treating the gabions or its part in an oven (1) with a reduced gas atmosphere containing hydrogen and/or carbon monoxide at 550-800[deg] C, immersing the heated gabions or its part in the liquid zinc-aluminum-alloy by a nozzle (2) flowing under the surface of the alloy bath, removing the gabions or its part from the liquid zinc-aluminum melt (4) and then cooling by air. The zinc aluminum alloy comprises an aluminum content of 3-65 wt.%, and a eutectic composition. The zinc-aluminum-alloy is lead-free and is saturated in iron. The gabions removed from the zinc-aluminum-melt are blown-off by a condensed gases or gas mixture. The nozzle is connected with the oven and consists of reduced gas atmosphere containing hydrogen and/or carbon monoxide. The zinc-aluminum-alloy has a temperature of 420-600[deg] C. An independent claim is included for hot metallized gabions.

Description

The The invention relates to a method for hot metallization of steel objects, in particular gabions, with a liquid zinc-aluminum alloy.

About that In addition, the invention relates to a according to the registration Process metallized gabions.

gabions are used in gardening and landscaping in particular for attachment used by embankments or for the production of walls. They consist essentially of a formed into a basket Wire mesh used to hold rock fillings becomes.

Since the gabions, which are usually made of steel wire, are exposed to constant corrosive attack, in the German utility model 20306435.2 proposed to galvanize the gabions or coat them with plastic.

These Type of corrosion protection, however, has little sense proved.

At the Filling the gabions with often sharp-edged ones Rocks and also when placing the filled gabions that is, in a composite that is made of zinc or plastic existing corrosion layer often damaged, so that it comes in case of a corrosion attack on the steel, the at least the visual appearance of a gabion compound affected by emerging rust flags.

The mentioned flaking of the zinc layer are by a Interlayer of extremely brittle zinc-iron mixed crystals causes, which is the usual full galvanizing between form the steel substrate and the zinc layer. Where this interlayer is claimed by impact or shock or deformation, it blasts from the ground and leads in this way to the mentioned damages.

With the usual Hot dip galvanizing contains the used zinc melt above In addition, significant levels of toxic lead, over time weathered with the zinc layer and harmful to the environment Contaminations of the soil may result.

Of the The invention is therefore based on the object, a method for hot metallizing of steel objects, especially gabions, with the disadvantages described are avoided.

• 1. Wärmebehandeln der Gabionen oder ihrer Teile in einem Ofen mit einer reduzierenden Gasatmosphäre, enthaltend Wasserstoff und/oder Kohlenmonoxyd bei einer Temperatur zwischen 550°C und 800°C.
• 2. Eintauchen der erhitzten Gabionen oder ihrer Teile in eine flüssige Zink-Aluminium-Legierung mittels eines unter der Oberfläche des Legierungsbades mündenden Rüssels, der mit dem Ofen verbunden ist und eine reduzierende Gasatmosphäre, enthaltend Wasserstoff und/oder Kohlenmonoxyd, aufweist, wobei die Zink-Aluminium-Legierung eine Temperatur zwischen 420°C und 680°C hat.
• 3. Ausziehen der Gabionen oder ihrer Teile aus der flüssigen Zink-Aluminium-Schmelze und Abkühlen an der Luft.

According to the invention, this object is achieved by hot metallizing the gabions in a liquid zinc-aluminum alloy, the following process steps being used successively:

• 1. heat treating the gabions or their parts in a furnace with a reducing gas atmosphere containing hydrogen and / or carbon monoxide at a temperature between 550 ° C and 800 ° C.
• 2. immersing the heated gabions or their parts in a molten zinc-aluminum alloy by means of a nozzle opening below the surface of the alloy bath connected to the furnace and having a reducing gas atmosphere containing hydrogen and / or carbon monoxide; Aluminum alloy has a temperature between 420 ° C and 680 ° C.
• 3. Extract the gabions or their parts from the liquid zinc-aluminum melt and cool in air.

at The inventive method is therefore for Hot metalizing no longer uses a zinc-lead melt, but a lead-free zinc-aluminum alloy in which the occurrence the otherwise resulting brittle iron-zinc mixed crystals on the steel objects almost completely is prevented and a corrosion protection layer is formed without Chipping and damage any deformation of the base material.

About that In addition, the mentioned anti-corrosion layer has a significantly improved corrosion protection effect, since the aluminum components the alloy used because of their high oxygen affinity forms extremely stable aluminum oxides in the air, which resist a normal corrosion attack as far as possible.

Out however, it is the same with the invention Method not possible, the metal objects to be metallized as in normal galvanizing after a flux treatment directly to dip into the molten zinc. Rather, this must be under Air seal in a reducing gas atmosphere done, where expediently the gabions previously in an oven with a likewise reducing atmosphere were annealed to this way about adhering oily impurities or to reduce oxides and a metallic surface to ensure a proper wetting with the Zinc-aluminum alloy allowed.

With the process technique described above, it is possible to vary the aluminum content of the zinc alloy between about 3 and 65% without causing brittle mixed crystals on the iron substrate or metallization defects. Especially however, a eutectic zinc-aluminum alloy which has an aluminum content of 5.1% by weight is expedient. Such eutectic compositions of molten metal solidify like a pure substance at a well-defined solidification temperature without passing through a heterogeneous state domain in which the melt is in equilibrium with the primary crystal.

such Eutectic alloys are therefore extremely homogeneous and free of segregation. This is one of the main reasons for the high corrosion resistance and good deformability of the metallization layer.

There the zinc-aluminum alloy according to the invention Procedure contains no lead, is the applied protective layer practically non-toxic and can be used without problems even in sensitive areas be used.

A further improvement of the adhesion properties on the base material can be achieved by iron saturation of the melt. There This saturation temperature is dependent can here no exact value is given.

In In practice, an iron saturation of the melt noticeable by the formation of ternary mixed crystals, which contain iron, zinc and aluminum and depending on the composition float on the melt or on the bottom of the alloy Melting tank sink. Such supersaturation Can be prevented by targeted addition of zinc or aluminum.

Around the smallest possible thickness of the metallization layer is achieved according to the invention, to blow off the gabions extracted from the melt with compressed gases. This will cause excess liquid melt removed and reduced the consumption of metallization alloy.

A According to the invention, preferred layer thickness of the metallization layer is between 20 and 60 μ.

A plant for carrying out the method according to the invention, which in 1 is shown schematically, consists essentially of a furnace 1 that by means of a trunk 2 with a kettle 3 connected, which is a liquid zinc-aluminum alloy 4 contains. This opens the trunk 2 below the liquid level 5 the melt 4 ,

The oven 1 , which can be heated, for example, by means of natural gas burners, not shown, is filled with a reducing atmosphere or a protective gas containing hydrogen and / or carbon monoxide. These gases can reduce iron oxides at appropriate temperatures, so that the in-furnace, not shown Metallisierungsgut when immersed in the melt has a clean surface that allows wetting of the metal, even without flux.

The gas pressure inside the furnace 1 is suitably slightly above the ambient pressure. This reliably prevents air from entering the interior of the oven and increasing the oxygen partial pressure of the annealing gas. In this way, the lower explosion limit of the annealing gas is safely exceeded.

Inside the oven 1 runs over two driven pulleys 6 . 7 an endless conveyor belt 8th for transporting the objects to be metallized. The conveyor belt 8th is from the furnace entrance 9 equipped, which may be open due to the pressure in the furnace interior.

The metallization is on the upper strand 10 of the conveyor belt 8th transported to the right and falls through the trunk 2 in the melt 4 in the kettle 3 on another conveyor belt 11 that in the melt 4 endlessly circulating. The Metallisierungsgut is by means of this conveyor belt 11 from the area below the trunk 2 transported to the right and can in the right area of the boiler 3 manually or automatically from the melt 4 pulled out and optionally fed to a blower.

A scanning electron micrograph of the metallization layer applied by the method according to the invention on a gabion, which is schematically shown in FIG 2 is shown that shows the homogeneous zinc-aluminum layer 12 without formation of an iron-zinc-aluminum mixed crystal layer with a thickness of about 40 μ on the steel wire 13 has secluded.

It be explicitly mentioned that also the metallization a steel strip or wire according to the invention Method falls within the scope of the invention.

1

oven

2

trunk

3

boiler

4

Alloy, melt

5

liquid level

6

idler pulley

7

idler pulley

8th

conveyor belt

9

furnace inlet

10

Trum

11

conveyor belt

12

metallization

13

steel wire

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 20306435 U [0004]

Claims (7)

Process for hot metallizing steel objects, in particular gabions, with a liquid zinc-aluminum alloy, characterized by the following process steps: I. heat treating the gabions or their parts in an oven ( 1 ) having a reducing gas atmosphere containing hydrogen and / or carbon monoxide at a temperature of between 550 ° C and 800 ° C. II. Immersing the heated gabions or their parts in a liquid zinc-aluminum alloy ( 4 ) by means of an under surface ( 5 ) of the alloy bath ( 4 ) opening the trunk ( 2 ), with the oven ( 1 ) and a reducing gas atmosphere containing hydrogen and / or carbon monoxide, wherein the zinc-aluminum alloy ( 4 ) has a temperature between 420 ° C and 600 ° C. III. Extracting the gabions or their parts from the liquid zinc-aluminum melt ( 4 ) and cooling in air. Process according to claim 1, characterized in that the zinc-aluminum alloy ( 4 ) has an aluminum content between 3 and 65 weight percent aluminum. A method according to claim 1 or 2, characterized in that the zinc-aluminum alloy ( 4 ) has an eutectic composition. Method according to one of claims 1 to 3, characterized in that the zinc-aluminum alloy is lead-free is. Method according to one of claims 1 to 4, characterized in that the zinc-aluminum alloy ( 4 ) is saturated with iron. Method according to one of claims 1 to 5, characterized in that the from the zinc-aluminum melt ( 4 ) discharged gabions are blown off by means of a compressed gas or gas mixture. Gabion, metallized by a method according to one of claims 1 to 6, characterized in that the Layer thickness of the metallization layer between 20 and 60 μ.