CN111362577A

CN111362577A - Bright glaze for ceramic archaized bricks and preparation method thereof

Info

Publication number: CN111362577A
Application number: CN202010158003.3A
Authority: CN
Inventors: 徐晓虹; 刘星; 吴建锋
Original assignee: Shaoxing Shangyu District Institute Of Technology; Wuhan University of Technology WUT
Current assignee: Shaoxing Shangyu District Institute Of Technology; Wuhan University of Technology WUT
Priority date: 2020-03-09
Filing date: 2020-03-09
Publication date: 2020-07-03

Abstract

The glaze is prepared by ball milling of glaze and additives, and comprises the following raw materials in percentage by weight: 37-84% of zirconium white frit, 9-56% of transparent frit and 5-7% of clay, wherein the additives are sodium tripolyphosphate and sodium polymethyl cellulose, and the addition amounts of the additives are 0.2-0.4% and 0.3-0.6% of the weight of the glaze respectively; the raw materials are mixed, dried, ball-milled and glazed, and then bright glaze can be formed on the surface of the antique brick blank. The invention develops the bright glaze which can be applied to the green body of the antique brick, has the advantages of smooth, smooth and exquisite glaze surface, high microhardness, higher glossiness, environmental protection and no pollution, and has good wear resistance and decorative performance and obvious bright effect of the antique brick.

Description

Bright glaze for ceramic archaized bricks and preparation method thereof

Technical Field

The invention relates to the technical field of ceramic preparation, in particular to a bright glaze for ceramic archaized bricks and a preparation method thereof.

Background

As an architectural ceramic product, in order to show the historical heavy feeling and the vicious feeling of the years, a layer of low-glossiness matt glaze is usually applied to the surface of the ceramic archaized brick. In recent years, with the change of the aesthetic sense of people, visual impact is pursued, and the glaze decoration of the antique tile is gradually developed from matt glaze to bright glaze.

The Chinese invention patent "a ceramic bright glaze ink and a preparation method thereof" (CN105131716A) discloses a preparation method of a bright glaze ink for ink-jet printing, wherein the bright glaze comprises the following components in parts by weight: SiO 2₂：Al₂O₃：CaO：MgO：KNaO：Li₂O：BaO：ZnO：B₂O₃：P₂O₅55-65: 7-13: 4-10: 2.1-4.5: 4-10: 0.8-2: 4-6: 2.1-5.5: 6-10: 0 to 3 percent of P, 0 to 3 percent of P is present in the glaze material although the glaze obtained after sintering has the excellent performances of smooth glaze surface, brightness, no pinhole, glossiness of more than 91 and the like₂O₅Its potential toxicity limits its application, and in addition, its wear resistance is not reported. The Chinese invention patent (CN107417117A) discloses a bright glaze with smooth surface and good glossiness without pinholes or bubbles and a preparation method thereof, wherein each component of the bright glaze is SiO₂55～80wt％，Al₂O₃8～15wt％，B₂O₃0～5wt％，CaO 5～ 13wt％，MgO 2～6wt％，BaO1～8wt％，ZnO 0～5wt％，K₂O 1～4wt％，Na₂O1-4 wt%, but the wear resistance and the gloss performance are not reported.

Disclosure of Invention

In order to solve the problems, the invention provides a bright glaze for ceramic archaized bricks and a preparation method thereof, and the specific technical scheme is as follows:

the glaze for the ceramic archaized brick is prepared by ball milling of glaze and additives, and comprises the following raw materials in percentage by weight: 37-84% of zirconium white frit, 9-56% of transparent frit and 5-7% of clay, wherein the additives are sodium tripolyphosphate and sodium polymethyl cellulose, and the addition amounts of the additives are 0.2-0.4% and 0.3-0.6% of the weight of the glaze respectively.

Preferably, the glaze comprises the following components in percentage by weight: 60% of zirconium white frit, 34% of transparent frit and 6% of clay, wherein the addition amounts of the sodium tripolyphosphate and the sodium polymethylcellulose are respectively 0.3% and 0.5% of the weight of the glaze.

A preparation method of a bright glaze for ceramic archaized bricks comprises the following steps:

(1) ball-milling the zirconium white frit, the transparent frit and the clay to a certain particle size;

(2) putting the ball-milled raw materials into a ball mill in proportion, and carrying out ball milling and mixing for 60-120 min by a wet method to obtain a mixture;

(3) drying the mixture for 24-48 h at 90 ℃ by using a drying oven to prepare dry glaze powder;

(4) the glaze dry powder, the additive, the ball mill and water are ball milled for 20-24 hours in a ball milling tank according to a certain proportion to prepare slurry;

(5) applying the slurry on the surface of an antique brick blank, and naturally drying for 12-24 hours at room temperature to obtain a sample;

(6) and (3) firing the sample at 1050-1150 ℃ to form the bright glaze on the surface of the archaized green brick body.

Further, the zirconium white frit comprises the following chemical components in percentage by weight: SiO 2₂51～58％、Al₂O₃6～7％、Fe₂O₃0.01～1％、TiO₂0.01～1％、CaO 6～9％、MgO 2～4％、K₂O 3～5％、 Na₂O0.01～1％、ZrO₂3～5％、ZnO 12～14％、BaO 0.01～1％。

Further, the transparent frit comprises the following chemical components in percentage by weight: SiO 2₂62～65％、Al₂O₃8～12％、Fe₂O₃0.01～1％、CaO 12～14％、MgO 1～2％、K₂O 2～3％、Na₂O 0.01～1％、 ZrO₂0.01～1％、ZnO 6～7％、BaO 0.01～1％。

Further, theThe clay comprises the following chemical components in percentage by weight: SiO 2₂60～66％、Al₂O₃32～36％、Fe₂O₃0.01～1％、TiO₂0.01～1％、CaO 0.01～1％、K₂O 0.01～1％。

Further, the average particle sizes of the zirconium white clinker, the transparent clinker and the clay are 375 meshes, 325 meshes and 250 meshes respectively.

Further, the additives are sodium tripolyphosphate and sodium polymethylcellulose, and the addition amounts of the additives are 0.2-0.4% and 0.3-0.6% of the weight of the glaze respectively.

Further, the proportion of the step (4) is as follows: (dry powder and additives): ball grinding: the mass ratio of the water is 1:2: 0.6-0.7.

Further, the temperature system of the sintering is as follows: when the temperature is less than 1000 ℃, the heating rate is 5 ℃/min, the heat is preserved for 30min every 100 ℃, when the temperature is more than or equal to 1000 ℃, the heating rate is 3 ℃/min, the heat is preserved for 60min every 100 ℃, and the heat is preserved for 15-30 min at the highest temperature.

Has the advantages that:

the invention develops the bright glaze which can be applied to the green body of the antique brick, fills the blank of the domestic bright glaze for the antique brick, does not contain harmful heavy metal elements such as lead, cadmium and the like in the chemical composition of the raw materials, and has the advantages of flat, smooth and fine glaze surface, high microhardness, higher glossiness, environmental protection, no pollution, good wear resistance and decorative performance and obvious bright effect of the antique brick.

Detailed Description

The invention is further described below with reference to specific examples:

Example 1:

a preparation method of a bright glaze for ceramic archaized bricks is characterized in that the bright glaze is prepared by ball milling of glaze and additives, 37% of zirconium white frit, 56% of transparent frit and 7% of clay are weighed according to weight percentage, wherein the zirconium white frit comprises the following chemical components in percentage by weight: SiO 2₂58％，Al₂O₃6％，Fe₂O₃0.01％， TiO₂0.01％，CaO 6％，MgO4％，K₂O 5％，Na₂O 1％，ZrO₂5%, ZnO 14%, BaO 0.98%; the transparent frit comprises the following chemical components in percentage by weight: SiO 2₂65％，Al₂O₃10％， Fe₂O₃1％，CaO 14％，MgO 1％，K₂O 2％，Na₂O0.01％，ZrO₂0.01 percent, ZnO6 percent and BaO 0.98 percent; the clay comprises the following chemical components in percentage by weight: SiO 2₂60％，Al₂O₃36％，Fe₂O₃1％，TiO₂1％，CaO 1％，K₂O 1％。

The preparation method comprises the following steps:

(1) preparing raw materials: respectively ball-milling the zirconium white frit, the transparent frit and the clay into powder for later use; the average grain sizes of the zirconium white frits, the transparent frits and the clay after ball milling are 375 meshes, 325 meshes and 250 meshes respectively.

(2) Mixing materials: weighing the zirconium white frit, the transparent frit and the clay according to the weight percentage, and putting the mixture into a ball mill for wet ball milling and mixing for 120min to prepare a mixture.

(3) And (3) drying: and drying the mixed slurry for 48 hours at 90 ℃ by using a drying oven to obtain the dry glaze powder.

(4) Grinding and pulping: the glaze dry powder, the additive, the ball mill and water are ball-milled in a ball milling tank for 24 hours according to a certain proportion to prepare slurry; wherein, the proportion of the materials is (dry powder and additive): ball grinding: the mass ratio of water is 1:2: 0.6; the additives are sodium tripolyphosphate (STTP) and sodium polymethylcellulose (CMC), and the addition amounts of the additives are 0.2 percent and 0.3 percent of the weight of the glaze respectively.

(5) Glazing: applying the slurry on the surface of an antique brick blank, and naturally drying for 12 hours at room temperature to obtain a sample;

(6) and (3) firing: and (3) firing the sample at 1050 ℃ to form a bright glaze on the surface of the archaized brick green body, thus obtaining the bright glaze decorated archaized brick product.

The firing temperature system is that when the temperature is less than 1000 ℃, the heating rate is 5 ℃/min, the heat is preserved for 30min every 100 ℃, when the temperature is more than or equal to 1000 ℃, the heating rate is 3 ℃/min, the heat is preserved for 60min every 100 ℃, and the heat is preserved for 30min at the highest temperature, so that the archaized brick with the bright glaze is obtained.

Tests prove that the glaze for the antique brick prepared by the embodiment is flat, smooth and fine, has high microhardness of 673.03HV and high glossiness of 80 degrees, and has good glaze decoration effect.

Example 2:

a preparation method of a bright glaze for ceramic archaized bricks is characterized in that the bright glaze is prepared by ball milling of glaze and additives, 84% of zirconium white frit, 9% of transparent frit and 7% of clay are weighed according to weight percentage, wherein the zirconium white frit comprises the following chemical components in percentage by weight: SiO 2₂52％，Al₂O₃7％，Fe₂O₃1％，TiO₂1％，CaO 9％，MgO 4％，K₂O5％，Na₂O 1％，ZrO₂5%, ZnO 14%, BaO 1%; the transparent frit comprises the following chemical components in percentage by weight: SiO 2₂62％，Al₂O₃12％，Fe₂O₃1％， CaO 12％，MgO 2％，K₂O 2％，Na₂O 1％，ZrO₂1%, ZnO 6% and BaO 1%; the clay comprises the following chemical components in percentage by weight: SiO 2₂66％，Al₂O₃32％，Fe₂O₃0.01％，TiO₂0.01％，CaO 0.99％，K₂O 0.99％。

The preparation method comprises the following steps:

(2) Mixing materials: weighing the zirconium white frit, the transparent frit and the clay according to the weight percentage, and putting the mixture into a ball mill for wet ball milling and mixing for 60min to prepare a mixture.

(3) And (3) drying: and drying the mixed slurry for 24 hours at 90 ℃ by using a drying oven to obtain the dry glaze powder.

(4) Grinding and pulping: the glaze dry powder, the additive, the ball mill and water are ball milled for 20 hours in a ball milling tank according to a certain proportion to prepare slurry; wherein, the proportion of the materials is (dry powder and additive): ball grinding: the mass ratio of water is 1:2: 0.7; the additives are sodium tripolyphosphate (STTP) and sodium polymethylcellulose (CMC), and the addition amounts of the additives are 0.4 percent and 0.6 percent of the weight of the glaze respectively.

(5) Glazing: applying the slurry on the surface of an antique brick blank, and naturally drying for 24 hours at room temperature to obtain a sample;

(6) and (3) firing: and (3) firing the sample at 1150 ℃ to form the bright glaze on the surface of the archaized brick green body, thus obtaining the bright glaze decorated archaized brick product.

The firing temperature system is that when the temperature is less than 1000 ℃, the heating rate is 5 ℃/min, the heat is preserved for 30min every 100 ℃, when the temperature is more than or equal to 1000 ℃, the heating rate is 3 ℃/min, the heat is preserved for 60min every 100 ℃, and the highest temperature is preserved for 15min, so that the archaized brick with the bright glaze is obtained.

Tests prove that the glaze for the antique brick prepared by the embodiment is flat, smooth and fine, has high microhardness of 741.90HV and high glossiness of 90 degrees, and has good glaze decoration effect.

Example 3:

a preparation method of a bright glaze for ceramic archaized bricks is characterized in that the bright glaze is prepared by ball milling of glaze and additives, 60% of zirconium white frit, 34% of transparent frit and 6% of clay are weighed according to weight percentage, wherein the zirconium white frit is prepared by mixing zirconium white frit, transparent frit and clayThe frit comprises the following chemical components in percentage by weight: SiO 2₂54.5％，Al₂O₃6.5％，Fe₂O₃0.5％， TiO₂0.5％，CaO 7％，MgO 5％，K₂O 6％，Na₂O 0.5％，ZrO₂5%, ZnO 14%, BaO 0.5%; the transparent frit comprises the following chemical components in percentage by weight: SiO 2₂63.5％，Al₂O₃10％， Fe₂O₃0.5％，CaO 14％，MgO 1.5％，K₂O2.5％，Na₂O 0.5％，ZrO₂0.5 percent, ZnO 6.5 percent and BaO 0.5 percent; the clay comprises the following chemical components in percentage by weight: SiO 2₂63％，Al₂O₃35％，Fe₂O₃0.5％，TiO₂0.5％，CaO 0.5％，K₂O 0.5％。

The preparation method comprises the following steps:

(2) Mixing materials: weighing the zirconium white frit, the transparent frit and the clay according to the weight percentage, and putting the mixture into a ball mill for ball milling and mixing for 90min by a wet method to prepare a mixture.

(3) And (3) drying: and drying the mixed slurry for 36 hours at 90 ℃ by using a drying oven to obtain the dry glaze powder.

(4) Grinding and pulping: the glaze dry powder, the additive, the ball mill and water are ball-milled in a ball milling tank for 24 hours according to a certain proportion to prepare slurry; wherein, the proportion of the materials is (dry powder and additive): ball grinding: the mass ratio of water is 1:2: 0.6; the additives are sodium tripolyphosphate (STTP) and sodium polymethylcellulose (CMC), and the addition amounts of the additives are 0.3 percent and 0.5 percent of the weight of the glaze respectively.

(5) Glazing: applying the slurry on the surface of an antique brick blank, and naturally drying for 18 hours at room temperature to obtain a sample;

(6) and (3) firing: and (3) firing the sample at 1100 ℃ to form the bright glaze on the surface of the archaized brick green body, thus obtaining the bright glaze decorated archaized brick product.

The firing temperature system is that when the temperature is less than 1000 ℃, the heating rate is 5 ℃/min, the heat is preserved for 30min every 100 ℃, when the temperature is more than or equal to 1000 ℃, the heating rate is 3 ℃/min, the heat is preserved for 60min every 100 ℃, and the highest temperature is preserved for 20min, so that the archaized brick with the bright glaze is obtained.

Tests prove that the glaze for the antique brick prepared by the embodiment is flat, smooth and fine, has high microhardness of 713.60HV and high glossiness of 86 degrees, and has good glaze decoration effect.

In conclusion, after various different proportions are repeatedly implemented, the microhardness of the prepared bright glaze for the antique brick is 673.03-741.90 HV, the glossiness is 80-90 degrees, and the glaze decoration effect is good.

Claims

1. The glaze for the ceramic archaized brick is prepared by ball milling of glaze and additives, and is characterized by comprising the following raw materials in percentage by weight: 37-84% of zirconium white frit, 9-56% of transparent frit and 5-7% of clay, wherein the additives are sodium tripolyphosphate and sodium polymethyl cellulose, and the addition amounts of the additives are 0.2-0.4% and 0.3-0.6% of the weight of the glaze respectively.

2. The glaze for the ceramic archaized brick according to claim 1, wherein the glaze comprises the following components in percentage by weight: 60% of zirconium white frit, 34% of transparent frit and 6% of clay, wherein the addition amounts of the sodium tripolyphosphate and the sodium polymethylcellulose are respectively 0.3% and 0.5% of the weight of the glaze.

3. A preparation method of a bright glaze for ceramic archaized bricks is characterized by comprising the following steps:

(1) ball milling the zirconium white frit, the transparent frit, and the clay of claim 1 to a predetermined particle size;

(2) putting the ball-milled raw materials into a ball mill according to the proportion of claim 1 or 2, and carrying out ball milling and mixing for 60-120 min by a wet method to obtain a mixture;

(4) performing ball milling on the glaze dry powder, the additive, the ball mill and water in a ball milling tank according to a certain proportion for 20-24 hours to prepare slurry;

4. The method for preparing a glaze for ceramic archaized bricks according to claim 3, wherein the zirconium white frit comprises the following chemical components in percentage by weight: SiO 2₂51～58％、Al₂O₃6～7％、Fe₂O₃0.01～1％、TiO₂0.01～1％、CaO 6～9％、MgO 2～4％、K₂O 3～5％、Na₂O 0.01～1％、ZrO₂3～5％、ZnO 12～14％、BaO 0.01～1％。

5. The method for preparing a glaze for ceramic archaized bricks according to claim 3, wherein the transparent frit comprises the following chemical components in percentage by weight: SiO 2₂62～65％、Al₂O₃8～12％、Fe₂O₃0.01～1％、CaO 12～14％、MgO 1～2％、K₂O 2～3％、Na₂O 0.01～1％、ZrO₂0.01～1％、ZnO 6～7％、BaO 0.01～1％。

6. The method for preparing the glaze for the ceramic archaized brick according to claim 3, wherein the clay comprises the following chemical components in percentage by weight: SiO 2₂60～66％、Al₂O₃32～36％、Fe₂O₃0.01～1％、TiO₂0.01～1％、CaO 0.01～1％、K₂O 0.01～1％。

7. The method for preparing a glaze according to claim 3, wherein the zirconia white frit, the transparent frit and the clay in step (1) have average particle sizes of 375 meshes, 325 meshes and 250 meshes after ball milling.

8. The method for preparing the glaze of claim 3, wherein the additives are sodium tripolyphosphate and sodium methylcellulose, and the addition amounts of the additives are 0.2-0.4% and 0.3-0.6% of the weight of the glaze respectively.

9. The method for preparing the glaze for the ceramic archaized brick according to claim 8, wherein the ratio of the step (4) is as follows: (dry powder and additives): ball grinding: the mass ratio of the water is 1:2: 0.6-0.7.

10. The method for preparing the glaze for the ceramic archaized brick according to claim 6, wherein the firing temperature system is as follows: when the temperature is less than 1000 ℃, the heating rate is 5 ℃/min, the heat is preserved for 30min every 100 ℃, when the temperature is more than or equal to 1000 ℃, the heating rate is 3 ℃/min, the heat is preserved for 60min every 100 ℃, and the heat is preserved for 15-30 min at the highest temperature.