DE529956C - Process for the production of white enamels - Google Patents

Description

Process for the production of white enamels The opacifiers used for Manufacture of white enamels should be used, consisting of highly basic Compounds or salt-containing complexes of the compounds suitable as opacifiers with non-incandescent acids or their salts, which act as opacifiers The oxides in question are essentially those of tin, antimony, zircon, Titans, Cers etc. are gotten in the enamel industry for various reasons not proven, so that one has completely abandoned their use. The main flaw This opacifier is the one that you can use with the usual fluorine-containing enamels result in matt enamel and boil far too easily when overburned.

Surprisingly, it has now been found that these opacifiers - excellent for clouding fluorine-free and low-fluorine enamels. These Invention is of the greatest technical and economic importance because the fluorides, such as kryolite, chiolite, silicofluorosodium, etc., which are considered indispensable ingredients the sheet metal and cast wet enamels were viewed in order to achieve a well-tarnished enamel, are among the most expensive components of enamel.

Fluorine-free enamels are in the early stages of the enamel industry white enamels have been used. But then one needed about ten thousandths of tin oxide to make to obtain sufficient whiteness. The fluorine-containing enamels allow get by with much smaller amounts of opacifiers. So it is known that one today with the well-known zircon opacifiers such as terrar with Tin and antimony oxides with an addition of about 6%, in some cases even even a little less, a sufficient whiteness is obtained.

It has now been found that the opacifiers identified above can be used with fluorine-free enamels to achieve a whiteness that is perfect in every respect, and that the consumption of opacifiers is even significantly less than 6%. None of the difficulties that arose when using the above-identified opacifiers with normal fluorine-containing enamels, do not arise when using fluorine-free or low-fluorine enamels, and the opacifying effect of these opacifiers with the fluorine-free or low-fluorine enamels is excellent. Neither could be foreseen after the experience with normal emails. Finally, it should be emphasized that these opacifiers with the low-fluorine and fluorine-free enamels hardly show any harmful boiling-up appearance when they are overburned. As expected, the opacifying effect depends on the composition of the opacifier. According to the invention, it has been found that the opacifying effect of these complex opacifiers increases up to a certain limit with the increase in the amount of non-annealing acids in the salt-containing complexes or in the highly basic compounds of these opacifiers. The relevant content of non-incandescent acids is about 0.5 to about 3 % . These limits depend on the composition of the enamel and on the particular conditions of the manufacture of the opacifier and its application. .

The part of the opacifiers mentioned that is not incandescent carries through a development of gas bubbles to an intensification of the turbidity effect strongly at. The amount of gas required to form the bubbles is extraordinary small. It should be remembered, however, that some of the volatile substances do is lost when it is burned in and only part of it remains in the enamel when it is melted. It is therefore not possible to precisely define and say which content is different in each possible and applicable opacifiers on non-incandescent components can be considered. This is a matter of trial and error, with the produced opacifiers are largely adapted to the needs of technology can. In some cases, as has been found, a content that is not incandescent is sufficient Components, which can also fall significantly below o, i ° / o.

Example iooo g enamel, fused together from borax (2q.0 g), feldspar (4io g), saltpeter (3og), soda (izog), calcite (3o9), quartz (1709), are used on the Mill mixed with 60 g of enameled clay and about 20 g of a zirconium oxide opacifier, the still about i g of a salt of a non-incandescent acid, such as. B. Sodium Nitrate or formate.

Claims (1)

PATE NTANSL'RUCi-l :: Process for the production of white enamels for enamelling sheet metal and castings by the wet process using highly basic compounds or salt-containing complexes of the compounds suitable as opacifiers with non-incandescent acids or their salts, characterized in that enamel fluorine-free and low-fluorine enamels are used and the opacifiers are added to the mill.