RU2176226C1 - Method of coloration of ceramic products - Google Patents

Abstract

FIELD: building materials industry, more particularly coloration of ceramic products, preferably facing bricks. SUBSTANCE: method comprises impregnating surface layer of product with aqueous solution of main salt of amphoteric hydroxide derivative of groups I transition elements of Periodic Table. Main salt of amphoteric hydroxide derivative is prepared by dissolving amphoteric hydroxide in acid or by alkalization of neutral salt of that element. Method of coloration of ceramic products allows for quality coloration without complication and prolongation of process of manufacturing bricks. EFFECT: improved coloration of ceramic products. 3 cl, 2 ex

Description

 The invention relates to the field of production of building materials and can be used for painting ceramic products, mainly face brick.

 Known methods for volumetric staining of front bricks with metal ores and metal oxides by introducing them into the mixture in dry powder form or in the form of a slip [1]. The most widely used in this method as additives were manganese ore, manganese dioxide, iron ore, iron oxide, chromite ore, in particular iron chromite and titanium dioxide.

 The disadvantages of the known methods are the high material costs associated with the consumption of a large number of additives necessary for coloring the entire mixture, poor quality of coloring, the presence of spots on the brick surface, the formation of which is associated with the plastic properties of clay and the difficulty of obtaining a homogeneous clay-based mass.

 A known method of applying a color coating by performing a two-layer brick with the formation of the main beam from an ordinary charge and applying a surface layer of 3-6 mm thickness from the facial mass based on light-burning clay with the addition of quartz glass, into which dyes are added to give the product color, in particular, manganese dioxide, chromium oxide, cobalt oxide, titanium dioxide and other metal oxides [2].

 A two-layer brick is formed on a tape vacuum press, and the front layer is applied using a second tape press or by vibration in a vibro chamber.

 The charge for the front layer is prepared by the slip method with thorough grinding and mixing of the components.

 The method can significantly reduce the consumption of dyes.

 The disadvantages of this method are complex and time-consuming, requiring special equipment, the process of preparing the facial mass, applying the mass to the timber, insufficiently high strength characteristics, the presence of the tendency of the front layer to peel off at temperature extremes, low impact strength, etc.

 There is a method of staining face bricks by introducing mineral salts and metal oxides into its surface layer during firing in a furnace by feeding them into a furnace and pulling them through a brick furnace with furnace gases [3].

 The disadvantages of this method are the low quality of dyeing products associated with the uneven flow around the cages with a brick flame and gases of the furnace, the difficulty of controlling the process and environmental pollution.

 A known method of staining face brick by impregnating the surface layer of dry brick with an aqueous solution of salt or metal oxide, followed by repeated drying and firing [4].

 The surface layer of dry brick has a fairly good absorbency, which makes it possible to impregnate the surface layer with an aqueous solution of dyestuffs by spraying, dipping or dipping blanks, which, when fired during the reaction with dyes, acquires the desired color.

 The disadvantages of this method are the complexity and lengthening of the process and the need for additional equipment associated with the installation of the impregnation device in front of the kiln and the transportation of the impregnated workpieces back to the inlet of the drying chamber; uneven coloring associated with uneven absorption of an aqueous solution of dyes due to the uneven density of the clay mass in the surface layer.

 Closest to the claimed technical solution is a method of staining ceramic products, in particular face bricks, by impregnating the surface layer of a freshly formed product with a coloring compound, drying and firing it [5]. The surface layer is impregnated by applying a saline solution to which a surfactant (surfactant) is additionally introduced. The use of surfactants as additives provides an increase in the absorbency of a moist clay mass.

 With the addition of surfactants, a coloring water-soluble substance is fixed in the surface layer. Manganese chloride and manganese sulfate were used as a coloring compound, and the carboxymethyl cellulose sodium salt (CMC) was used as a surfactant.

 Depending on the type of clay, the concentration of surfactants changes.

 The disadvantage of this method is that with increasing dispersion and free surface of the clay and the deterioration of its drying properties, the concentration of surfactants increases. For clay montmorillanite type, products from which are dried for 48 hours or more, even at high concentrations of surfactants, it is impossible to prevent the migration of coloring substances into the body of the product. Therefore, finished products have insufficiently saturated (juicy) colors.

 When cutting a beam into bricks, a violation of the uniformity of staining of bonded surfaces is possible.

 The objective of the present invention is to develop a method for staining ceramic products, in particular face brick, by impregnating the surface layer with a coloring compound, which would ensure high-quality staining of products from all types of clay without complicating and lengthening the process and without the use of surfactants, which in turn ensures the efficiency of the method.

 The problem is solved due to the fact that in the method of staining ceramic products, in particular face brick, by impregnating the surface layer of a freshly formed product with coloring compounds, drying and firing, according to the invention, the surface layer is impregnated with the base salt of the amphoteric hydroxide derivative of the element of the first row of transition elements The periodic system of D.I. Mendeleev.

A preferred option for staining Cambrian clay face brick involves pouring freshly molded clay bar into an aqueous solution of the base salt of the amphoteric chromium hydroxide derivative obtained by dissolving amphoteric chromium hydroxide in acid, and using a solution containing wt.%:
Cr (OH) ₃ - 6.9-7.0
HCl - 2.8-4.7
H ₂ O - Else
An option for staining Cambrian clay face brick with shades of raspberry - dark raspberry color involves pouring freshly formed timber into an aqueous solution of the base salt of the amphoteric iron hydroxide derivative obtained by alkalizing the middle iron salt, the solution contains, wt.%:
FeCl ₃ - 10.22-17.6
NaOH - 4.6-9.3
H ₂ O - Else
The proposed method for staining ceramic products involves a completely different mechanism for fixing coloring compounds in the surface layer of the product.

 A solution containing a water-soluble coloring compound is applied to the surface of the beam exiting the mouthpiece of the press. As it is absorbed into the timber, the solution interacts with clay minerals, as a result of this interaction, the water-soluble coloring compound goes into an insoluble state and is deposited in the surface layer of the product. This is due to the fact that clay particles have a predominantly negative charge, and upon absorption of a solution of a basic salt having an excess of positively charged cations, intense deposition begins on the surface of clay particles. In parallel, the acid component of the solution interacts with clay minerals and intense hydroxide deposition occurs on the surface of the clay particles.

 Thus, further migration of the coloring composition to the depth of the product is prevented and a high uniformity of color is achieved without the use of surfactants, regardless of the type of clay and drying time of the product, which is most important when painting products from clays of montmorillanite type.

 As the coloring compound, an aqueous solution of the basic salt of the amphoteric hydroxide derivative of an element of the first row of transition elements of the Periodic system is used. D.I. Mendeleev.

The first row of transition elements includes the following chemical elements [6]:
Sc; Ti; V; Cr; Mn, Fe; Co, Ni; Cu; Zn.

 Due to the peculiarities of the electronic structure of these elements, they can form amphoteric hydroxides and water-soluble basic salts based on them.

 Such solutions have a lower acidity than solutions of medium salts and are therefore very sensitive to changes in acidity and with the slightest decrease in the latter, active precipitation of insoluble hydroxide begins from them. When such a solution is absorbed into the clay bar, as we noted above, its acid component enters into chemical interaction with clay minerals, as a result of which the acidity of the solution decreases and insoluble hydroxide is deposited on the surface of the minerals.

 By changing the acidity of the solution and its concentration, you can adjust the intensity and depth of the product.

 For each type of clay, the acidity and concentration of the solution are selected empirically. The basic salt can be obtained by direct interaction of amphoteric hydroxide and acid or by alkalization of the middle salt.

 When a freshly molded clay bar is doused with an aqueous solution of the basic salt of an amphoteric hydroxide derivative of an element of the first row of transition elements of the Periodic system Mendeleev there is an effective absorption and uniform distribution in the surface layer of timber.

 This allows for high-quality staining of products from all grades of clay without violating the usual technological process, in which the surface layer of a freshly molded clay bar is impregnated by pouring it, followed by cutting the bar into bricks, as well as by drying and firing, while the uniformity of the color of the bonded surfaces is not violated.

 In more detail, the claimed technical solution is examined by examples of its implementation.

Staining was carried out in the manufacture of Cambrian clay facing bricks in accordance with the technological process, including preparing a mixture of clay, preparing a solution for surface treatment of a workpiece, forming a clay bar on a vacuum press, applying the solution to a clay bar by pouring it, for example, using a pumping device , cutting timber into bricks using string machine, drying the molded bricks in a tunnel dryer at t 95 ^o C, firing in the tunnel kiln bricks t to 950-970 ^o C. spraying produ or aqueous solutions of basic salt derivative of an amphoteric hydroxide element of the first series of transition elements of the periodic system DI Mendeleev.

When pouring with a solution of the basic salt a derivative of amphoteric chromium hydroxide obtained by dissolving amphoteric chromium hydroxide in acid during the reaction according to the formula
3Cr (OH) ₃ + 3HCl ---> CrCl ₃ + 3H ₂ O + 2Cr (OH) ₃
after drying and firing received
a) during the reaction with the following ratio of components: Cr (OH) ₃ - 6.9 wt.%, HCl - 4.7 wt.%, H ₂ O - 88.4 wt.% - light brown color;
b) with a ratio of components: Cr (OH) ₃ - 6.9 wt.%, HCl - 3.5 wt.%, H ₂ O - 89.6 wt.% - brown color;
c) with a ratio of components: Cr (OH) ₃ - 7.0 wt.%, HCl - 2.8 wt.%, H ₂ O - 90.2 wt.% - the color is dark brown.

 The calculation was carried out as follows.

For the reaction, we took the components in the following quantities:
1. Weight ratio
Cr (OH) ₃ - 23.22 g
HCl - 7.28 g
H ₂ O - 300 g
As a percentage
Cr (OH) ₃ - 7.0%
HCl - 2.2%
H ₂ O - 90.8%
100%
In this case, the onset of precipitation of chlorine hydroxide was observed.

2. Weight ratio
Cr (OH) ₃ - 23.22 g
HCl - 15.97 g
H ₂ O - 300 g
As a percentage
Cr (OH) ₃ - 6.9%
HCl - 4.7%
H ₂ O - 88.4%
100%
A faint surface staining was obtained.

3. Weight ratio
Cr (OH) ₃ - 23.22 g
HCl - 11.62 g
H ₂ O - 300 g
As a percentage
Cr (OH) ₃ - 6.9%
HCl - 3.5%
H ₂ O - 89.6%
100%
A brown color was obtained.

4. Weight ratio
Cr (OH) ₃ - 23.22 g
HCl - 9.44 g
H ₂ O - 300 g
As a percentage
Cr (OH) ₃ - 7.0%
HCl - 2.8%
H ₂ O - 90.2%
100%
Saturated Brown
5. Weight ratio
Cr (OH) ₃ - 23.22 g
HCl - 24.69 g
H ₂ O - 300 g
As a percentage
Cr (OH) ₃ - 6.7%
HCl - 7.1%
H ₂ O - 86.2%
100%
As a result of this reaction, a medium salt is obtained (no staining was observed).

 Example 2

When pouring with a solution of the basic salt a derivative of amphoteric iron hydroxide obtained by alkalizing the middle salt of iron during the reaction according to the formula
3FeCl ₃ + 6NaOH ---> 2Fe (OH) ₃ + 6NaCl + FeCl ₃
after drying and firing received
a) during the reaction with the following ratio of components:
FeCl ₃ - 10.22 wt.%; NaOH - 4.6 wt.%; H ₂ O - 85.18 wt.% - raspberry color;
b) with a ratio of components:
FeCl ₃ - 17.6 wt.%; NaOH - 9.3 wt.%; H ₂ O - 73.1 wt.% - color dark crimson.

 In all cases, uniformity of the painted surface took place.

 The destruction of the samples showed the penetration of dyes into the surface layer to a depth of 2 mm.

 For pouring, a pumping apparatus was used, used to impregnate the surface layer with a substance that prevents efflorescence.

 The claimed technical solution fully fulfills the task facing the invention.

 The claimed technical solution with its distinguishing features currently in the Russian Federation and abroad is not known and meets the requirements of the criterion of "novelty."

 The claimed technical solution is original, does not follow obviously from the existing level of technology and meets the requirements of the criterion of "inventive step".

 The inventive method can be implemented in serial industrial production using well-known technical means, technologies and materials and meets the requirements of the criterion of "industrial applicability".

List of references
1. I. A. Alperovich "Production of clay clay bricks." Review M., VNIIESM, 1978, pp. 19-26.

 2. "Production of two-layer facing bricks." Technical information, series "Industry of ceramic wall materials and porous fillers", M., VNIIESM, 1974, no. 1.

 3. "Brick painting with a gas flame." R.Zh. "Chemistry", M., VINITI, 1957, 23943.

 4. "Method for the production of colored front brick." Abstract information, series "Industry of ceramic wall materials and porous fillers." M., VNIIESM, 1979, no. 9, p. 31.

5. Patent RU N 2130443, MKI ⁶ : C 04 B 41/50, 33/14, 1999 - prototype.

 6. A.V. Suvorov, A.B. Nikolsky "General Chemistry", St. Petersburg, "Chemistry", 1997, p. 508-509.

Claims (2)

 1. The method of staining ceramic products, in particular face brick, by impregnating a surface of a freshly formed product with water-soluble coloring compounds, drying and firing, characterized in that the surface layer is impregnated with an aqueous solution of a basic salt of an amphoteric hydroxide derivative of an element of the first row of transition elements of the Periodic system D . I. Mendeleev. 2. The method according to claim 1, characterized in that the stoneware of Cambrian clay is made by pouring a freshly molded clay bar with an aqueous solution of the basic salt of the amphoteric chromium hydroxide derivative obtained by dissolving amphoteric chromium hydroxide in acid, in order to obtain shades of light brown colors - dark brown use a solution containing, wt.%:
Cr (OH) ₃ - 6.9 - 7.0
HCl - 2.8 - 4.7
H ₂ O - Else
3. The method according to claim 1, characterized in that the stoneware of Cambrian clay is made by pouring freshly formed timber with an aqueous solution of the base salt of the amphoteric iron hydroxide derivative obtained by alkalizing the medium salt, using a solution of raspberry-dark raspberry colors, containing, wt.%
FeCl ₃ - 10.22 - 17.6
NaOH - 4.6 - 9.3
H ₂ O - Else