Disclosure of Invention
Aiming at the defects of the prior art, the invention improves the components and the compositions of the blank layer, the overglaze layer and the wear-resistant glaze layer, and provides a 4-grade wear-resistant glaze marble tile which is convenient to manufacture and has high quality and a manufacturing method thereof.
The utility model provides a4 level wear-resisting glaze marble ceramic tile, includes body layer, overglaze layer, decorative layer and the wear-resisting glaze layer that sets gradually from supreme down, its characterized in that, the wear-resisting glaze layer comprises the component of following parts by mass: SiO2240-50 parts of Al2O315-20 parts of K2O2-3 parts、Na20.5 to 1 portion of O and TiO20.2-0.4 part of Fe2O30.2-0.5 part of P2O50.05-0.1 part of MnO, 0.001-0.01 part of MgO, 10-20 parts of CaO, 4-5 parts of BaO and 0.02-0.05 part of SrO.
The method can improve the wear resistance of the glaze surface from two aspects, namely, the wear resistance of a crystal phase and the wear resistance of a glass phase. The components of the wear-resistant glaze layer of the invention properly increase the proportion of alkaline earth metals such as CaO, BaO and the like, and reduce Na2O and K2The proportion of alkali metals such as O, etc., so that the abrasion resistance of the glass phase in the glaze can be improved. The initial melting and melting temperatures of the glaze are regulated and controlled by regulating and controlling the proportion of each component in the glaze, so that the wear resistance and transparency of the whole glaze are improved, and the purpose of achieving the wear resistance of the ceramic tile at level 4 is achieved.
Preferably, SiO in the wear-resistant glaze layer component2、Al2O3And the mass ratio of CaO is controlled to be (5.5-6): (2-3): (1.5-2).
Preferably, the wear-resistant glaze layer also comprises ZrO20.01-0.1 portion.
Preferably, the wear-resistant glaze layer also comprises 5-8 parts of ZnO.
The proportion of silicon, aluminum and calcium in the glaze component is very important, and by controlling the proper proportion of silicon, aluminum and calcium, the glaze can separate out a wear-resistant crystalline phase in the cooling process, so that the wear resistance is improved. The wear-resistant crystalline phase medium is added into the glaze, so that the wear resistance of the glaze can be improved, the introduction amount of the wear-resistant medium cannot be too much, and otherwise, the wear resistance can be reduced. According to the invention, 0.01-0.1 part of ZrO2 is added into the components of the wear-resistant glaze layer, so that the wear resistance of the ceramic tile can be effectively improved. ZnO has strong crystallization tendency in glaze melt, ZnO introduced in the invention can play a role of crystallization, thereby improving the wear resistance, and in addition, ZnO can also increase the glaze luster, improve the glaze whiteness and promote opacification.
Preferably, the overglaze layer is a frit glaze, and the frit glaze mainly comprises the following components in parts by mass: SiO2250-60 parts of Al2O320-25 parts of CaO, 1-2 parts of CaO, 0.4-0.6 part of MgO and K2O2-4 parts, Na23-4 parts of O, 0.1-0.4 part of ZnO and 0.01 part of SrO;
preferably, the green body layer consists of the following components in parts by mass: 5-10 parts of J medium temperature sand, 5-10 parts of J34 potassium sodium sand, 5-10 parts of J high clay 1#5-10 parts, 5-10 parts of J36 potassium sodium sand, 1#5-10 parts of J medium temperature sand, 3#5-10 parts of J mixed mud, 2-8 parts of J mixed mud, 3# 3-8 parts of J talc mud, 15-10 parts of J34 potassium sodium sand, 2-5 parts of J mixed sand, 2-5 parts of mud feces, 10-15 parts of J30 sodium stone powder, 4-7 parts of J52 mud strips, 10-15 parts of J refined aluminum sand, 2-5 parts of J washing mud, 4-7 parts of raw material recovery slurry, 0.03-0.09 part of alkaline diluent and 0.3-1 part of water glass.
Preferably, the tile is a full body marble tile, the tile blank layer material is further added with a coloring material, the particle size of the coloring material is less than 325 meshes, and the water content is controlled to be less than 1%.
The invention also provides a preparation method of the 4-grade wear-resistant glazed marble tile, which is characterized by comprising the following steps of:
the method comprises the following steps: pressing the blank layer material into a ceramic tile forming blank, and drying in a kiln to form a semi-finished blank;
step two: applying overglaze to the semi-finished blank in the step one according to a bell jar type glaze pouring process to form an overglaze layer;
step three: printing patterns on the overglaze layer in the second step in an ink-jet mode to form a decorative layer;
step four: applying wear-resistant glaze on the decorative layer obtained in the third step to form a wear-resistant glaze layer;
step five: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to obtain the finished ceramic tile.
Preferably, the glazing mode of the wear-resistant glaze in the fourth step adopts a bell jar type glaze pouring process.
The silk-screen printing is a wear-resistant glazing method commonly used in the industry, and has the main advantages of simple plate making and printing method, low equipment investment and low cost, and has the main defects of low printing speed and poor printing level. In order to improve the glazing mode of the wear-resistant glaze, the invention adopts the bell-type glaze spraying process, can improve the production speed and effectively improve the definition of the layout.
Preferably, the quality control range of the wear resistant glaze is 50-55 g/tile, and the specification of the tile is 800cm by 800 cm.
The quality range of the wear-resistant glaze is critical, the use amount of the wear-resistant glaze can influence the final wear-resistant strength and the glaze transparency of the ceramic tile, the wear-resistant strength cannot be achieved when the use amount is small, and the color development and the transparency of the wear-resistant glaze are influenced when the use amount is large.
The invention has the following beneficial effects:
(1) the ceramic tile provided by the invention adds alkaline earth metal and crystalline phase medium in the formula of the glaze wear-resistant layer, so that the ceramic tile can finally realize 4-level wear resistance of 2100-4500 turns.
(2) The manufacturing method is simple and convenient, and the wear-resistant glaze can be directly applied to the decorative layer without adding a transition layer or adding a protective layer on the surface of the wear-resistant glaze layer.
(3) The invention adopts the bell-type glaze spraying process, can improve the production speed and effectively improve the definition of the layout.
Detailed Description
The following further illustrates embodiments of the invention:
examples of the invention
The specification of the ceramic tile prepared in the invention is 800cm by 800 cm.
Inventive example 1
A preparation method of a 4-grade wear-resistant glazed marble tile comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile A1.
Wherein the green body layer consists of the following components in parts by weight: 5kg of J medium-temperature sand, 5kg of J34 potassium sodium sand, 5kg of J high clay 1#5, 5kg of J36 potassium sodium sand, 1#5kg of J medium-temperature sand, 5kg of J mixed mud 3#5, 2kg of J mixed mud, 1#3kg of J talc mud, 15kg of J34 potassium sodium sand, 2kg of J mixed sand, 2kg of mud feces, 10kg of J30 sodium stone powder, 4kg of J52 mud bars, 10kg of J fine aluminum sand, 2kg of J washing mud, 4kg of raw material recovery slurry, 0.03kg of alkaline diluent and 0.3kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze comprises the following components in parts by weight: SiO2250kg、Al2O320kg、CaO 1kg、MgO 0.4kg、K2O 2kg、Na2O3 kg, ZnO 0.1kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2240kg、Al2O315kg、K2O 2kg、Na2O0.5kg、TiO20.2kg、Fe2O30.2kg、P2O50.05kg, MnO 0.01kg, MgO 0.3kg, CaO 10kg, BaO 4kg, SrO0.02 kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Inventive example 2
The difference between the embodiment and the invention embodiment 1 is that the glaze-resistant layer has different formula proportions, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile A2.
Wherein the green body layer consists of the following components in parts by weight: 10kg of J medium temperature sand, 10kg of J34 potassium sodium sand, 10kg of J high clay 1#10kg, 10kg of J36 potassium sodium sand, 1#10kg of J medium temperature sand, 10kg of J mixed mud 3# 8kg, 8kg of J mixed mud, 8kg of J talc mud 1#8kg, 110 kg of J34 potassium sodium sand, 5kg of J mixed sand, 5kg of mud feces, 15kg of J30 sodium stone powder, 7kg of J52 mud bars, 15kg of J refined aluminum sand, 5kg of J water washed mud, 7kg of raw material recovery slurry, 0.09kg of alkaline diluent and 1kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze comprises the following components in parts by weight: SiO2260kg、Al2O325kg、CaO 2kg、MgO 0.6kg、K2O 4kg、Na2O4 kg, ZnO 0.4kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2250kg、Al2O320kg、K2O 3kg、Na2O 1kg、TiO20.4kg、Fe2O30.5kg、P2O50.1kg, MnO 0.001kg, MgO 0.6kg, CaO 20kg, BaO 5kg, SrO0.05kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Inventive example 3
The difference between the embodiment and the invention embodiment 1 is that the glaze-resistant layer has different formula proportions, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile A3.
Wherein the green body layer consists of the following components in parts by weight: 9.5kg of J medium-temperature sand, 29.5 kg of J34 potassium-sodium sand, 9kg of J high clay 1#9, 8.5kg of J36 potassium-sodium sand, 1#5kg of J medium-temperature sand, 3#5kg of J mixed mud, 4kg of J mixed mud, 1#4kg of J talc mud, 19.5 kg of J34 potassium-sodium sand, 4kg of J mixed sand, 2kg of mud feces, 12kg of J30 sodium stone powder, 6kg of J52 mud, 12kg of J refined aluminum sand, 3kg of J washing mud, 6kg of raw material recovery slurry, 0.05kg of alkaline diluent and 0.7kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze comprises the following components in parts by weight: SiO2255kg、Al2O325kg、CaO 1.5kg、MgO 0.5kg、K2O 2kg、Na2O3 kg, ZnO 0.2kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2245kg、Al2O320kg、K2O 2.5kg、Na2O0.7kg、TiO20.3kg、Fe2O30.4kg、P2O50.06kg, MnO 0.01kg, MgO 0.5kg, CaO 15kg, BaO4.5kg, SrO 0.03 kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Inventive example 4
The difference between the embodiment and the invention embodiment 3 is that a proper amount of ZrO2 is added into the glaze-resistant layer formula, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile A4.
Wherein the green body layer consists of the following components in parts by weight: 9.5kg of J medium-temperature sand, 29.5 kg of J34 potassium-sodium sand, 9kg of J high clay 1#9, 8.5kg of J36 potassium-sodium sand, 1#5kg of J medium-temperature sand, 3#5kg of J mixed mud, 4kg of J mixed mud, 1#4kg of J talc mud, 19.5 kg of J34 potassium-sodium sand, 4kg of J mixed sand, 2kg of mud feces, 12kg of J30 sodium stone powder, 6kg of J52 mud, 12kg of J refined aluminum sand, 3kg of J washing mud, 6kg of raw material recovery slurry, 0.05kg of alkaline diluent and 0.7kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze comprises the following components in parts by weight: SiO2255kg、Al2O325kg、CaO 1.5kg、MgO 0.5kg、K2O 2kg、Na2O3 kg, ZnO 0.2kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2245kg、Al2O320kg、K2O 2.5kg、Na2O0.7kg、TiO20.3kg、Fe2O30.4kg、P2O50.06kg, MnO 0.01kg, MgO 0.5kg, CaO 15kg, BaO4.5kg, SrO 0.03kg, ZrO20.04kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effectAnd then standby.
Inventive example 5
The difference between the embodiment and the invention embodiment 3 is that a proper amount of ZnO is added into the glaze-resistant layer formula, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile A5.
Wherein the green body layer consists of the following components in parts by weight: 9.5kg of J medium-temperature sand, 29.5 kg of J34 potassium-sodium sand, 9kg of J high clay 1#9, 8.5kg of J36 potassium-sodium sand, 1#5kg of J medium-temperature sand, 3#5kg of J mixed mud, 4kg of J mixed mud, 1#4kg of J talc mud, 19.5 kg of J34 potassium-sodium sand, 4kg of J mixed sand, 2kg of mud feces, 12kg of J30 sodium stone powder, 6kg of J52 mud, 12kg of J refined aluminum sand, 3kg of J washing mud, 6kg of raw material recovery slurry, 0.05kg of alkaline diluent and 0.7kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze mainly comprises the following components in parts by weight: SiO2255kg、Al2O325kg、CaO 1.5kg、MgO 0.5kg、K2O 2kg、Na2O3 kg, ZnO 0.2kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2245kg、Al2O320kg、K2O 2.5kg、Na2O0.7kg、TiO20.3kg、Fe2O30.4kg、P2O50.06kg. MnO 0.01kg, MgO 0.5kg, CaO 15kg, BaO4.5kg, SrO 0.03kg, ZnO 6 kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Inventive example 6
The difference between the embodiment and the invention embodiment 3 is that a proper amount of ZrO2 and ZnO is added into the glaze-resistant layer formula, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile A6.
Wherein the green body layer consists of the following components in parts by weight: 9.5kg of J medium-temperature sand, 29.5 kg of J34 potassium-sodium sand, 9kg of J high clay 1#9, 8.5kg of J36 potassium-sodium sand, 1#5kg of J medium-temperature sand, 3#5kg of J mixed mud, 4kg of J mixed mud, 1#4kg of J talc mud, 19.5 kg of J34 potassium-sodium sand, 4kg of J mixed sand, 2kg of mud feces, 12kg of J30 sodium stone powder, 6kg of J52 mud, 12kg of J refined aluminum sand, 3kg of J washing mud, 6kg of raw material recovery slurry, 0.05kg of alkaline diluent and 0.7kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze mainly comprises the following components in parts by weight: SiO2255kg、Al2O325kg、CaO 1.5kg、MgO 0.5kg、K2O 2kg、Na2O3 kg, ZnO 0.2kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2245kg、Al2O320kg、K2O 2.5kg、Na2O0.7kg、TiO20.3kg、Fe2O30.4kg、P2O50.06kg, MnO 0.01kg, MgO 0.5kg, CaO 15kg, BaO4.5kg, SrO 0.03kg, ZrO20.04kg, ZnO 6 kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Comparative example 1
The difference between the embodiment and the invention embodiment 1 is that the formula of the glaze-resistant layer does not contain CaO, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile B1.
Wherein the green body layer consists of the following components in parts by weight: 5kg of J medium-temperature sand, 5kg of J34 potassium sodium sand, 5kg of J high clay 1#5, 5kg of J36 potassium sodium sand, 1#5kg of J medium-temperature sand, 5kg of J mixed mud 3#5, 2kg of J mixed mud, 1#3kg of J talc mud, 15kg of J34 potassium sodium sand, 2kg of J mixed sand, 2kg of mud feces, 10kg of J30 sodium stone powder, 4kg of J52 mud bars, 10kg of J fine aluminum sand, 2kg of J washing mud, 4kg of raw material recovery slurry, 0.03kg of alkaline diluent and 0.3kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze mainly comprises the following components in parts by weight: SiO2250kg、Al2O320kg、CaO 1kg、MgO 0.4kg、K2O 2kg、Na2O3 kg, ZnO 0.1kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2240kg、Al2O315kg、K2O 2kg、Na2O0.5kg、TiO20.2kg、Fe2O30.2kg、P2O50.05kg, MnO 0.01kg, MgO 0.3kg, BaO 4kg, SrO0.02kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Comparative example 2
The difference between the embodiment and the invention embodiment 1 is that BaO is not in the glaze-resistant layer formula, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile B2.
Wherein the green body layer consists of the following components in parts by weight: 5kg of J medium-temperature sand, 5kg of J34 potassium sodium sand, 5kg of J high clay 1#5, 5kg of J36 potassium sodium sand, 1#5kg of J medium-temperature sand, 5kg of J mixed mud 3#5, 2kg of J mixed mud, 1#3kg of J talc mud, 15kg of J34 potassium sodium sand, 2kg of J mixed sand, 2kg of mud feces, 10kg of J30 sodium stone powder, 4kg of J52 mud bars, 10kg of J fine aluminum sand, 2kg of J washing mud, 4kg of raw material recovery slurry, 0.03kg of alkaline diluent and 0.3kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is a fritThe frit glaze is prepared from the following components in parts by weight: SiO2250kg、Al2O320kg、CaO 1kg、MgO 0.4kg、K2O 2kg、Na2O3 kg, ZnO 0.1kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2240kg、Al2O315kg、K2O 2kg、Na2O0.5kg、TiO20.2kg、Fe2O30.2kg、P2O50.05kg, MnO 0.01kg, MgO 0.3kg, CaO 10kg, SrO0.02kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Comparative example 3
The difference between the embodiment and the embodiment 1 of the invention lies in that the glazing method is different, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: applying wear-resistant glaze on the decorative layer obtained in the second step by adopting a screen printing process to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 50 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile B3.
Wherein the green body layer consists of the following components in parts by weight: 5kg of J medium-temperature sand, 5kg of J34 potassium sodium sand, 5kg of J high clay 1#5, 5kg of J36 potassium sodium sand, 1#5kg of J medium-temperature sand, 5kg of J mixed mud 3#5, 2kg of J mixed mud, 1#3kg of J talc mud, 15kg of J34 potassium sodium sand, 2kg of J mixed sand, 2kg of mud feces, 10kg of J30 sodium stone powder, 4kg of J52 mud bars, 10kg of J fine aluminum sand, 2kg of J washing mud, 4kg of raw material recovery slurry, 0.03kg of alkaline diluent and 0.3kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze mainly comprises the following components in parts by weight: SiO2250kg、Al2O320kg、CaO 1kg、MgO 0.4kg、K2O 2kg、Na2O3 kg, ZnO 0.1kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2240kg、Al2O315kg、K2O 2kg、Na2O0.5kg、TiO20.2kg、Fe2O30.2kg、P2O50.05kg, MnO 0.01kg, MgO 0.3kg, CaO 10kg, BaO 4kg, SrO0.02 kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Comparative example 4
The difference between the embodiment and the embodiment 1 of the invention lies in that the glazing amount is different, and the method specifically comprises the following steps:
the method comprises the following steps: applying a cover glaze to the semi-finished product blank according to a bell jar type glaze pouring process to form a cover glaze layer;
step two: printing patterns on the overglaze layer in the first step in an ink-jet mode to form a decorative layer;
step three: performing bell-jar type glaze pouring on the decorative layer obtained in the second step to apply the wear-resistant glaze to form a wear-resistant glaze layer, wherein the quality control range of the wear-resistant glaze is 20 g;
step four: and drying and firing the semi-finished ceramic tile in front of a kiln, and then selecting qualified products for polishing and waxing to prepare the ceramic tile B4.
Wherein the green body layer consists of the following components in parts by weight: 5kg of J medium-temperature sand, 5kg of J34 potassium sodium sand, 5kg of J high clay 1#5, 5kg of J36 potassium sodium sand, 1#5kg of J medium-temperature sand, 5kg of J mixed mud 3#5, 2kg of J mixed mud, 1#3kg of J talc mud, 15kg of J34 potassium sodium sand, 2kg of J mixed sand, 2kg of mud feces, 10kg of J30 sodium stone powder, 4kg of J52 mud bars, 10kg of J fine aluminum sand, 2kg of J washing mud, 4kg of raw material recovery slurry, 0.03kg of alkaline diluent and 0.3kg of water glass. All the blank materials are mixed evenly according to the formula proportion, then pressed into the required specification of green bricks, and put into a kiln to be fired into semi-finished blank materials.
The overglaze layer is prepared from a frit glaze, and the frit glaze mainly comprises the following components in parts by weight: SiO2250kg、Al2O320kg、CaO 1kg、MgO 0.4kg、K2O 2kg、Na2O3 kg, ZnO 0.1kg, SrO 0.01 kg. Mixing all glaze materials uniformly according to a formula ratio, adding water, grinding in a ball mill, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
The wear-resistant glaze layer comprises the following components in parts by weight: SiO2240kg、Al2O315kg、K2O 2kg、Na2O0.5kg、TiO20.2kg、Fe2O30.2kg、P2O50.05kg, MnO 0.01kg, MgO 0.3kg, CaO 10kg, BaO 4kg, SrO0.02 kg. Mixing all wear-resistant glaze materials uniformly according to a formula ratio, adding water, adding the glaze materials into a ball mill for crushing, and adjusting the flow rate ratio of the glaze to a proper glaze spraying effect for later use.
Test examples
The prepared ceramic tiles A1-A6 and B1-B4 are subjected to wear resistance test according to the national standard of the people's republic of China, GB/T3810.7-2016 ceramic tile test method part 7, determination of the surface wear resistance of glazed tiles.
Summary of test results
Test items
|
Wear resistance
|
Wear rating
|
A1
|
2100 turns
|
4 stage
|
A2
|
2100 turns
|
4 stage
|
A3
|
2500 rpm
|
4 stage
|
A4
|
3000 turns
|
4 stage
|
A5
|
3500 turn
|
4 stage
|
A6
|
4500 revolutions
|
4 stage
|
B1
|
1000 turn
|
Grade 3
|
B2
|
1000 turn
|
Grade 3
|
B3
|
2100 turns
|
4 stage
|
B4
|
800 turn
|
Grade 3 |
The test result shows that: the wear-resisting property of the marble ceramic tile can reach 4 levels, and SiO is controlled in the formula of the wear-resisting glaze2、Al2O3The mass ratio of CaO is beneficial to improving the wear resistance of the ceramic tile, and ZrO2 and ZnO are added into the formula of the wear-resistant glaze to further improve the wear resistance. In addition, the addition of alkaline earth metals such as CaO and BaO in the wear-resistant glaze greatly affects the wear resistance, so that the wear resistance of the ceramic tile is reduced from 4 to 3. The quality range of the wear-resistant glaze also has an influence on the wear resistance, and too low quality can cause the wear resistance to be reduced.
Variations and modifications to the above-described embodiments may occur to those skilled in the art, which fall within the scope and spirit of the above description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and variations of the present invention should fall within the scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.