DD296057A5 - COLOR BUTTER FOR A DECKEMAIL AND A GLASUR - Google Patents

Abstract

The invention relates to a color body for a ceiling enamel and a glaze. It finds application on the one hand in the enamelling of household goods and containers, eg. As for the chemical industry, and on the other hand in the glazing of ceramic substrates. According to the invention, the color body consists of a hard magnetic ferrite material with an average grain size X50 in the logarithmic probability network in the range of 5 to 20 m. The size of the value of its specific surface is approximately the same as the value of the specific surface of the enamel frit or of the glaze powder in about the same way as 1: 1. The ferrite material to be mentioned is, for example, barium ferrite or strontium ferrite. Ceiling mail; Glaze; Ferrite material, hard magnetic; Korngroesze; Surfaces, specific; barium; strontium}

Description

Field of application of the invention

The invention relates to the field of color bodies. It relates to a specific application of a novel color body for a ceiling enamel and a glaze. The color body finds application in the enameling of dishes and household goods, as well as containers of all kinds, e.g. also for the chemical industry. Furthermore, the color body is used when coloring glazes.

Characteristic of the known state of the art

The manufacture and composition of enamel are well known. Deckemails are characterized in that they bring their final condition not only from the melt, but in many cases obtained only by Zumahlstoffe (in some cases turbidity and color). The number of possible color bodies is very large (Petzold, A .: Pöschmann, H .: enamel and enamelling technique, VEB German publishing house for basic industry Leipzig 1986, P. 11 Off).

They usually consist of one or more oxides, usually by melting or grinding the enamel frit

be added.

The glaze production uses similar addition techniques.

The disadvantage is that the used ceramic oxide color bodies (eg Cr, Zn, -Cu oxide) are subject to high costs.

Object of the invention

The aim of the invention is to find a color body for a ceiling enamel and a glaze, which is inexpensive.

Explanation of the essence of the invention

The object of the invention is to provide a new color body for a cover enamel and a glaze, which is available in sufficient quantity and ensures the purpose of the invention. According to the invention, the color body consists of a hard magnetic ferrite material having an average particle size X ₅₀ in the logarithmic probability network in the range of 5 to 20 μm. The size of the value of its specific surface area is related to the size of the value of the specific surface of the enamel frit or the glaze powder in about 1: 1.

Conveniently, the ferrite material is a barium or strontium ferrite. Advantageously, the ferrite material to be used as the colored body is a waste product of ferrite product production.

embodiment

The invention will be explained in more detail below with reference to two examples.

example 1

One with conventional technology and with u.a. Raw material weight (in% by weight) produced hard-magnetic ferrite material is used as a color body for a transparent enamel (deck enamel)

Barium ferrite or

Pickle Fe ₂ O ₃ 58.51% by weight

Nerchau-Fe ₂ O ₃

(synthetic) 25.15% by weight

Ba ₂ CO ₃ 16.00% by weight

Molar ratio 1: 5.0

strontium ferrite 85,14Gew .-% BeIz-Fe ₂ O ₃ 10.52% by weight SrCO ₃ 0.42% by weight SiO ₂ 1: 5.45 Mol ratio

The hard magnetic ferrite raw material is ground in a three-chamber tube mill in a concatenation with a tube vibrating mill to a specific surface of about 3000 cmVg (according to Blaine). This corresponds to an x ₅₀ value of the grain size in the logarithmic probability network of <25pm. Thereafter, a Feinstmahlung in the Ringtrogschwingmühlebzw. 40% solids attritor to a specific surface of 3500 to about 4500 cm ² / g (Blaine's). This corresponds to a Хбо value of 20-5μιη. It is important that the specified particle size range and a specific surface area of> 3000cm ² / g are maintained. Before the ferrite powder is mixed with the transparent enamel frit, it is screened through a бЗ-цт-ЭіеЬ.

The transparent enamel has a commercial composition (VEB enamel melt Radeberg). That is, it consists essentially of borax, feldspar, quartz, soda, fluorspar and potash peter. This enamel frit must have a Blaine specific surface area of 3000 to 4500 cm ² / g. This value can also be achieved by appropriate comminution processes

 For the preparation of enamel pastes, the following weight is calculated:

Color bodies (ferrite) 5g Screen printing oilS Ö7 (on acrylate basis) 35g Transparentemailfritte 50 g

The weighed substances are mortared. The paste is then passed through a three-roll mill again to obtain a homogeneous and agglomerate-free paste.

The order of an enamel paste thus produced on a deep-drawn steel sheet by means of a Siebdruckvverfahrens (155-mesh screen). The sheet was previously enamelled. There are two prints. After each printing, the drying of 100 ⁰ C is carried out. The layer thickness after both printing and drying operations is about 100 μηι. Finally, the layer is baked at 825 ° C for 60 min in a continuous furnace. The result is a black glossy and smooth surface with few pores. By changing the firing temperature (740 ... 800 ⁰ C) shades between dark brown and black are achieved. Of course, the color variation can also be realized by changing the color body content.

Example 2

For the hard magnetic ferrite materials, the same constituents as mentioned in Example 1 should be used.

The preparation of the ferrite powder until screening corresponds to the course mentioned in Example 1. The obtained properties of the powder are also identical.

To produce a glaze paste, a commercially available glaze powder (VEB Technical Glass Ilmenau) with the following constituents is used: PbO, SiO ₂ , Al ₂ O ₃ , ZnO / CaO. This powder is already delivered ready to use. Its specific surface is approx. 3000 cm ² / g (according to Blaine).

For paste production, the following sample weight is created:

Color body (ferrite) 5g

Screen printing oil 07

(VEB Druckfarbenwerk Leipzig) 35g

TDW-glaze powder

(VEB Technical Glass Ilmenau) 50g

The weighed substances are crushed and then rolled several times on a three-roll mill, so that no more agglomerates are available.

The paste thus prepared is screen printed on unglazed ceramic Al ₂ O ₃ substrates using a 155 mesh screen. There are three prints with

intervening drying at about 100 ° C. The total layer thickness after the last drying process is approx.

The fire of the glaze layer takes place at 850 ° C, 30 minutes in a continuous furnace.

It will achieve a good glossy and smooth surface of the glaze. Pores or tips are barely noticeable. The realized glaze color is black.

The ferrite color bodies used are many times cheaper than the previously used black ceramic color bodies. Since they can often be recovered from waste products in ferrite product production due to a non-100% yield, this cost effect is exacerbated.

Claims (4)

1. Color body for a ceiling enamel and a glaze, characterized by a hard magnetic ferrite material having an average grain size X ₅₀ in the logarithmic probability network in the range of 5 to 20 μ, wherein the size of the value of its specific surface area to the size of the value of the specific surface of the Enamel frit or the glaze powder in about as 1: 1 behaves. 2. Color body according to claim 1, characterized in that the hard magnetic ferrite material is a barium ferrite. 3. color body according to claim 1, characterized in that the hard magnetic ferrite material is a strontium ferrite. 4. color body according to claim 1, characterized in that the ferrite material is a waste product of Ferriterzeugnisherstellung.