DE1270C - Process for the production of enamelled iron goods - Google Patents

Description

1877.

Class 48.

F. G. NIEDRINGHAUS and W. F. NIEDRINGHAUS in ST. LOUIS (North America).

Process for the production of enamelled iron goods.

Patented in the German Empire on November 13, 1877 ^a ^ ·

Current invention relates to improvements in enameling ironware, through which a more permanent enamel coating and also a prettier appearance of the goods is achieved. It does this by causing oxidation on the metallic Base area during the enamelling process. By far the most excellent way of doing this consists in treating the metal purified in the acid bath an alkaline solution and the acid contained in the enamel to oxidize of metal used.

The procedure is as follows:

The metal is cleaned in an acid bath as usual and then after the Scrub without the aid of an alkaline bath and placed in clear water and a half Left in the same hour to remove the acid. Once the goods are out of the water comes, the enamel is applied, whereupon it is slowly put in the drying room dry.

The appearance and character of the enamel are determined by the more or less long stay in the drying room, due to that in the latter The prevailing temperature is determined, since the degree of oxidation depends on it. One certain rule cannot be given for this, as the procesf of different circumstances is influenced, so z. B. on the moisture content of the outer atmosphere. The goods must be carefully handled during the process monitors and the temperature and time of the stay of the goods in the room be regulated according to the appearance of the goods.

We prepare our enamel mass from the usual fabrics, being careful is that they are well mixed up and completely fused into a lump be used to drive out all carbon and other substances that prevent oxidation the acid contained in the enamel mass can act freely. Then the mass is in water ground and applied in a known manner.

As a result of the acid contained in the enamel, the metallic basis now begins, to oxidize during the drying process, and the oxidation is made reddish Spots noticeable on the surface of the enamel coating; in this way the enamel coating after it is finally permanently fixed in the kiln, the desired mottled appearance. Through this oxidation the enamel is also compelled to penetrate the pores of the iron and become more firmly attached to the iron To connect metal, making the coating more permanent.

For a better explanation of our procedure, we want the more precise formulas according to which the enamel mass for enamelling a certain quantity of goods is to be put together, as well as that Specify the method of production and application of this mass, but we limit ourselves in no way exactly to the proportions mentioned below, nor to those in the description the time and temperature conditions specified in the process.

We take 100 kg of pure silicate, 5 to 10 kg of nitric acid baking soda, 30 kg of soda, 10 kg of potash, 50 kg of borax and 8 kg of brown stone. All of these substances are mixed together and completely melted. The molten mass is then ground in water for ten hours with an addition of 6 kg of clay. The ironware prepared in the manner described above is immersed in the pulpy mass obtained in this way and then immediately brought into the drying room, in which a temperature of 52 ^° C. is maintained. The goods stay here for about four hours. after which it is completely dried. From the dry space it is placed into the kiln, in ^wel: chem ordinary kiln temperature prevails and left eight minutes in the same. This creates a speckled enamel with a brownish appearance. However, you can change the color of the enamel coating as you wish; to z. For example, to produce a speckled enamel of bluish color, take 2 kg of carbonate of cobalt in place of the brownstone. To produce a white color, one of the colorants well known to enamellers is chosen, as our process does not exclude the use of colorants.

If one continues the treatment of iron goods in an alkaline bath, then it increases the amount of borax-containing and the amount of alkaline fluxes is reduced in the enamel mass in such a way that the alkali is present in a smaller quantity and the oxidation can go on unhindered. The character of the staining is determined by the amount of enamel applied the presence of acid. If you want an enamel with smaller stains, you have to increase the borax content of the mass and reduce its alkaline components, since the size of the spots depends on the amount of acid contained in the mass or on the more or less unimpeded effect of the same depends.

The invention also relates to the treatment of those coming out of the kiln Goods. So far, it has been allowed to cool in the open air.

We have now found in our practice that this rapid cooling off is damage. In order to melt the enamel mass on the iron, the goods must be on one high heat.

If the goods are cooled from such a high temperature, the iron base naturally pulls itself out more together than the newly formed enamel coating. If the cooling is brought about quickly, the iron hardens and pulls together before the enamel mass could completely unite with it, as a result the enamel coating does not adhere completely and easily pops off when in use.

In order to remedy this inconvenience, we lengthen the cooling-off time as much as possible and proceed as follows: As soon as the goods have been taken out of the oven without damage, the enamel coating with suitable devices can be touched, and while it is still in a very hot state, it is brought into a room in which the surrounding air has the same temperature as the goods. Then it becomes very slow cooled to such an extent that four to six hours pass over it. For this you can operate an ordinary glass cooling furnace. This delaying cooling is what makes the iron itself less brittle, but also causes a very intimate connection of the coating with the metal surface underneath.

The invention also relates to treatment the enamel mass, in the event that it is not acid-in for any reason contains sufficient quantity to cause the metal surface to oxidize.

Usually the acid contained in the mass is completely sufficient for the purpose in question but it can happen that as a result of a 'defective melting or an insufficient grinding the acid is not sufficiently digested to be energetic enough to cause the oxidation. In this case we put the finished liquid mass some liquid acid too. Any liquid acid that attacks iron can be used for this purpose will. A teaspoon full of 50 kg of mass is sufficient to achieve the desired effect to evoke.

Claims (4)

Patent Claims: 1. The above-described process to achieve oxidation of the enamelled Iron goods during the drying of the applied enamel mass. 2. A spotted enamelled iron ware, the oxidized base of which with the enamel coating is intimately connected. 3. The procedure described above to slowly cool the out of the kiln enamelled goods taken. 4. The combination of the usual enamel mass used for enamelling iron ware with liquid acid in the manner described ^; and for the stated purpose.