DE19754950A1 - Area elements of iron, steel or special steel covered with a protective layer - Google Patents

Abstract

The protective layer on area elements in the form iron, steel or special steel plates or sheets consists of galvanically applied hard chromium, with a layer thickness of at least 0.001 mm. Independent claims are also included for a method and an apparatus for production of such protective layers. The area element (3) is placed into a bath (2) consisting of 200-250 g CrO3 and 2-2.5 g H2SO4 per liter of water. Galvanic application of the protective layer takes place preferably after roughening of the area element surface by voltage polarity reversal at the area element and the anode (4). The surfaces not to be coated are provided with capture electrodes at a specified distance from such surfaces. These electrodes have the same polarity as the surfaces to be coated.

Description

The invention relates to fabrics made of iron, steel or Stainless steel plates or sheets, the surfaces of which are covered by a protective layer are refined.

Unprotected steel structures are attacked in clean air. she roast. Form in air polluted by atmospheres severe damage to the surfaces.

Not only steel, but also zinc, copper and other metals are becoming obsolete protects slowly destroyed. Where solid substances, e.g. B. saline coals, coke or particularly aggressive liquids touch the surfaces, there are significant difficulties. The attacks originate as electrical chemical processes. Elements are formed in which the pure metal that forms a pole. The conditions for this are different substances Potential, for which already local impurities, products already Destruction started, acids and moisture count. That too weak carbon dioxide can be quite aggressive.

The surface protection includes all the usual painting processes, always must be carried out with particular care. (Complete rust removal, Applying the paint when it is dry etc.) are particularly at risk Surfaces where the sheet or plate is in water conclusions and reappear. The usual oil paintings have changed not proven. In many cases, oil emulsions are preferred never dry out completely and do not crack, e.g. B. "Emulol" different  their composition for external and internal surfaces.

Alloyed steels are preferred for some surfaces.

These known measures for surface protection of fabrics Iron, steel or stainless steel cannot be used in all cases. On the one hand, the lifespan of these protective surfaces is not sufficient, on the other hand, the known methods generally only Protect surfaces of technical tools or the like. Prefers hard chrome plating is used on drills, milling cutters or bearing surfaces. The optical appearance of such hard chrome plating is important in the Usually don't.

However, where it is mostly on cladding in building construction or out architectural reasons, one has previously tried another Use surface protection.

The so-called "physical vapor depo" has become known, for example sition "Process with which, in a high vacuum, a protective layer, for example Titanium nitrite is evaporated onto the surface to be protected. This The procedure is extremely costly, especially when it comes to Treatment of large areas is possible. An industrial facility to carry out Such surface treatments have so far not been fully utilized become.

In contrast, the object of the invention is a surface provide protection for fabrics of the type described at the beginning, which is not only distinguished by great durability and resistance to the attacks from atmospheres, but also by economic distinguishes reasonable creation and follow-up costs.

It has been found that this task is simple can solve that as a surface protective layer a galvanically applied Use hard chrome plating with a layer thickness of at least 0.001 mm det.  

Hard chrome plating of iron, steel or stainless steel surfaces are knows. However, this is essentially an improvement the technical properties of relatively small surfaces on tools conditions, storage or the like. To protect the surfaces of fabrics made of iron, steel or stainless steel against atmospheres in construction or Hard chrome plating has not yet been used in architecture been used. With this use in architecture it comes about above all - unlike in technical use - on optical wires kungen that can be achieved with the invention.

According to claims 2 and 3, the hard chrome plating can be one-sided or be applied to the surfaces of the fabrics on both sides.

According to claim 4, iron, steel or stainless steel plates or -Plates with a thickness of at least 0.1 mm for hard chrome plating use.

Because the hardness of the hard chrome plating is 56 to 59 Hrc the sheet or plate refined by hard chrome plating is an advantage for covering elevators, escalators, building facades, kitchens or the like. Except for the qualitative properties of the sheets or plates made of iron, steel or stainless steel result from the hard Chromium plating also has the following advantages: The hard chromium plating the scratch resistance of the fabrics increases significantly. The Hartver Chromium is heat-resistant up to 400 ° Celsius. The coating has Non-stick properties, which has the significant advantage, for example se in facade cladding shows that the hard chromed sheets or Plates are easy to clean. This also results in a Ver use of hard chrome-plated plates in elevators or the like.

It is advantageous that the binding state according to claim 6 between the Sheet or plate surface and the hard chrome plating is such that subsequent processing, preferably a bend up to 90 ° bent outwards with a radius of 3 mm without loosening the binding between the surface and the hard chrome plating is feasible.  

In addition to these advantages, the invention is extremely expensive Favorable surface finishing of the flat structures possible. The easier the pieces to be treated are the cheaper their surface becomes finishing.

The plates or sheets surface-finished according to the invention are resistant to most chemicals, which means that the refined surfaces of the fabrics an application is recommended in which the surfaces are exposed to weather and atmospheric conditions are exposed.

It has been found that the surface-coated sheets or Plates can be welded without difficulty. You own as studies have shown, even heat distribution.

The invention can be used with great success in conjunction with stainless steels with the designations Ü 4301, Ü 4401 and Ü 4404. Hard chrome plating of surfaces is also easy of steel plates or sheets possible.

It has been found that it is advantageous to have one prior to hard chrome plating Apply nickel layer to avoid corrosion.

In order to achieve decorative effects, fabrics according to the claims 8-12 bright hard chrome plating, matt hard chrome plating or black ze or gray hard chrome plating. Such surface areas can according to of claims 11 and 12 together on the sheets or plate top surfaces are applied.

The appearance of the hard chrome plating depends on the current used strength, from the surface quality of the base material, from the tempera door of the bath and the duration of hard chrome plating.

Depending on what appearance of the surfaces you want, you will the parameters specified for hard chrome plating vary.

A method for hard chromium plating of iron, steel or stainless steel plates or sheets is characterized according to claim 15 characterized in that the sheet 3 in a bath 2 with a composition of 200-250 g of CrO ₃ per liter of water with 2 to 2.5 g per liter of H ₂ SO _{4 are} lowered, and that the surfaces to be hard-chromed are then roughened, preferably by reversing the polarity of the voltages + and -signs and -signs on flat structures 3 and the anode 4 , whereupon the hard chromium plating is carried out galvanically.

Matt or bright chrome plating results from changes in temperature and the current. By varying the temperature and current numerous matt or bright chrome plating effects can be achieved.

Black chrome plating can be done in a second step create a bath with citric acid. However, this is suitable at all mainly for decorative purposes because of the layered ceiling to be applied is only about 0.001 mm.

Clean chrome deposits on the hard-chrome-plated surfaces. The shape of the anode used depends on the shape of the hard chrome plating the workpieces.

To achieve patterns on the hard chrome-plated surfaces, leave certain surface areas during chrome plating with an ab cover. This cover can be glued on by suitable mate rialien, but also by paints. This allows sharp Achieve boundaries between different areas.

To cover the surface areas of the surfaces that are not hard-chrome-plated However, fan electrodes with the same polar polar can also be formed act as the surface areas to be chrome-plated, which in Ab stood in front of the surface areas not to be chrome-plated are. The target electrodes can be provided with cutouts through through which the hard chrome plating of the surface behind it follows. When using cover electrodes you can decoratively Achieve the advantage that the hard chrome-plated areas are not exactly festge have limits. By changing the current and through  Changing the distance can achieve decorative effects.

Special advantages in creating decorative surfaces can be achieved by using multiple electrodes that are exchangeable in front of the hard-chrome-plated surface areas are to be arranged. The below Different electrodes can be matched with each other Recess patterns provided, which are arranged one after the other in front of the surface be net.

The time required for hard chrome plating of surfaces depends on the current strength, the desired layer thickness and the appearance (matt or bare or black or gray). The normal hard chrome plating is advantageously carried out in the range of 20 A / dm ² . With such a current strength, layer thicknesses of about 0.01 mm per hour can be achieved.

The distance of the electrodes from the plate or sheet surface is depending on the shape of the plate or sheet. The device for Hard chrome plating according to the invention must offer the possibility of the Ab was due between the electrode and the surface to be coated vary to achieve even layer thicknesses. It can be only determine the optimum values in each case through tests and experience. On average, the distance of the electrode from the hard-chrome The surface area is about 60 mm. The usual tension at Hart Chromium plating according to the invention is adjusted to 6 volts.

In Fig. 1, a bath 2 is shown a sheet 3 for hard chromium plating of the surface schematically.

Fig. 2a shows - also schematically - a sheet 3 , an anode 4 and a collecting electrode 5 with the same polarity as the flat form. Fig. 2b finally shows the sheet 3 , in front of the somewhat smaller anode 4 and in front of the sheet 3 a electrode 5 designed as a circular disc, which can also have any other shape.

Claims (20)

1. Sheet material made of iron, steel or stainless steel plates or sheets, the surfaces of which are refined by a protective layer, characterized in that a galvanically applied hard chromium plating with a layer thickness of at least 0.001 mm is used as the surface protective layer. 2. fabric according to claim 1, characterized, that the hard chrome plating is applied on one side. 3. fabric according to claim 1, characterized, that the hard chrome plating is applied on both sides. 4. fabric according to one of claims 1-3, characterized, that the plates or sheets have a thickness of at least 0.1 mm point. 5. fabric according to one or more of the preceding claims, characterized, that the hardness of the hard chrome plating is 56 to 59 Hrc.   6. fabric according to one or more of the preceding claims, characterized, that the bond state between the sheet or plate surface and the hard chrome plating is such that subsequent deformation bent up to 90 ° and with a radius of 3 mm without solution the bond between the surface and hard chrome plating is cash. 7. fabric according to one or more of the preceding claims, characterized, that the hard chrome plating consists of hard chrome. 8. fabric according to one or more of the preceding claims, characterized, that the protective layer consists of bright hard chrome plating. 9. fabric according to one or more of claims 1-7, characterized, that the protective layer consists of matt hard chrome plating. 10. fabric according to one or more of the preceding claims 1-9, characterized, that the protective layer from a black or gray hard chrome plating consists. 11. fabric according to one or more of the preceding claims 1-10, characterized, that the protective layer from areas with bare and matt Hartver Chroming exists. 12. fabric according to one or more of claims 8-11, characterized, that the protective layer from areas with black and gray Hartver Chroming exists.   13. A method for hard chromium plating of sheets of iron, steel or stainless steel plates or sheets, characterized in that the sheets ( 3 ) in a bath ( 2 ) with a composition of 200-250 g CrO ₃ per liter of water additionally 2- 2.5 g of H ₂ SO ₄ are reduced per liter of water, and that afterwards the polarity of the hard-chromium-plated surface is roughened, preferably after reversing the polarity of the voltage (+ -) on the fabric ( 3 ) and the anode ( 4 ), whereupon the hard chromium plating is carried out becomes. 14. The method according to claim 13, characterized in that the temperature of the bath ( 2 ) and / or the current is varied to achieve a matt or bright hard chrome plating. 15. The method according to claims 13 and 14, characterized in that a black or gray hard chrome plating of a fabric takes place in a special operation within a bath ( 2 a), the citric acid is added. 16. The method according to claims 13-15, characterized in that the non-hard-chromium-plated surface areas of the surfaces ( 3 ) are hen during hard chromium plating with a cover verse. 17. The method according to claim 16, characterized, that the covering of the non-hard chrome-plated surface areas done by paints. 18. Device for generating patterns during the hard chromium plating of surface areas according to claim 16, characterized in that for covering the non-hard chromium plating surface areas of the flat structures ( 3 ), catch electrodes ( 5 ) with the same polarity as the surface to be chromium plating, which are used in Ab stood from the non-hard chrome-plated surface areas are arranged in front of the surface. 19. The apparatus according to claim 18, characterized in that recesses are provided in the catch electrode ( 5 ), through which hard chromium plating of the underlying surface area takes place. 20. Device according to claims 18 and 19, characterized in that several pattern electrodes with coordinated recess patterns are used for pattern formation on the hard-chromium-plating surface areas of the fabrics ( 3 ).