CN106565089A - Ceramic glaze and preparation method of same - Google Patents
Ceramic glaze and preparation method of same Download PDFInfo
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- CN106565089A CN106565089A CN201610955108.5A CN201610955108A CN106565089A CN 106565089 A CN106565089 A CN 106565089A CN 201610955108 A CN201610955108 A CN 201610955108A CN 106565089 A CN106565089 A CN 106565089A
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C8/00—Enamels; Glazes; Fusion seal compositions being frit compositions having non-frit additions
Abstract
The invention discloses a ceramic glaze which is prepared from, by weight, white corundum, quartz, kaolin, zirconium dioxide, zinc oxide, copper ore, red feldspar, sodium oxide, sodium chloride, potassium oxide, lithium chinastone, dolomite, disthene, medical stone, calcium oxide, titanium oxide, stannic oxide, calcium silicate, barium carbonate, terpene resin, sodium alginate, talcum, calcite and limestone. In the invention, the ceramic glaze is prepared from the white corundum with combination of various raw materials through special processes, wherein the white corundum improves anti-wear performance of the ceramic glaze, thereby protecting a ceramic product well. The ceramic glaze solves a problem of poor anti-wear performance of a glaze surface in ceramic products in the prior art, and satisfies user demands well.
Description
Technical field
The present invention relates to ceramic technology field, more particularly to a kind of ceramic glaze and preparation method thereof.
Background technology
Glaze is the nature of glass thin layer of the colorless or colored for being covered in ceramic surface, is with Anhydrite, quartz, Talcum, height
Ridge soil is waited and coordinates (part material can first make frit) to make glaze slip through grinding by a certain percentage, imposes on billet surface, Jing mono-
Determine temperature calcination to form, glaze imposes on ceramic surface, is widely used in architectural decoration, there are beautification implements, be easy to wipe
Wash, not erosion dirty by dust raw meat the features such as.
Existing glaze typically adopts common fritted glaze, and it has the disadvantage that glaze wears no resistance, it is difficult to meet use requirement.For
Ensure Wear Resistance, the cover-coat enamel glaze for needing wearability newly developed good.
The content of the invention
It is an object of the invention to provide a kind of ceramic glaze, can solve at least one of above-mentioned technical problem, the ceramics
Glaze is prepared by using white fused alumina proportioning plurality of raw materials and through special process, wherein it is wear-resisting to improve its using white fused alumina
Performance, can well protect ceramic, solve the problems, such as that glaze wears no resistance in existing ceramic.
According to an aspect of the invention, there is provided a kind of ceramic glaze, the ceramic glaze is made up of the raw material of following weight portion:
White fused alumina 18-24 parts, quartz 12-20 parts, Kaolin 15-21 parts, zirconium dioxide 10-14 parts, Zinc Oxide 9-15 part, Copper Ores 5-
9 parts, it is red Anhydrite 15-24 parts, sodium oxide 14-18 parts, Sodium Chloride 10-14 part, potassium oxide 10-14 parts, lithium porcelain stone 14-18 parts, white
Marble 10-14 parts, kyanite 14-18 parts, Maifanitum 10-14 parts, calcium oxide 14-18 parts, titanium oxide 12-25 parts, stannum oxide 9-
20 parts, calcium silicates 12-25 parts, brium carbonate 32-46 parts, terpene resin 8-16 parts, sodium alginate 22-36 parts, Talcum 2-9 parts, side
Solution stone 50-100 parts, limestone 10-35 parts.
Further, it is made up of the raw material of following weight portion:Described white fused alumina 20-24 parts, quartz 15-20 parts, Kaolin 17-
21 parts, zirconium dioxide 11-14 parts, Zinc Oxide 10-15 part, Copper Ores 6-9 parts, red Anhydrite 16-24 parts, sodium oxide 16-18 parts, chlorine
Change sodium 11-14 parts, potassium oxide 11-14 parts, lithium porcelain stone 15-18 parts, dolomite 11-14 parts, kyanite 15-18 parts, Maifanitum 11-
14 parts, calcium oxide 15-18 parts, titanium oxide 15-25 parts, stannum oxide 11-20 parts, calcium silicates 15-25 parts, brium carbonate 33-46 parts, terpene
Olefine resin 11-16 parts, sodium alginate 23-36 parts, Talcum 3-9 parts, calcite 59-100 parts, limestone 19-35 parts.
Further, it is made up of the raw material of following weight portion:Described white fused alumina 22-24 parts, quartz 17-20 parts, Kaolin 18-
21 parts, zirconium dioxide 12-14 parts, Zinc Oxide 13-15 part, Copper Ores 7-9 parts, red Anhydrite 17-24 parts, sodium oxide 17-18 parts, chlorine
Change sodium 13-14 parts, potassium oxide 13-14 parts, lithium porcelain stone 16-18 parts, dolomite 12-14 parts, kyanite 16-18 parts, Maifanitum 12-
14 parts, calcium oxide 16-18 parts, titanium oxide 19-25 parts, stannum oxide 15-20 parts, calcium silicates 19-25 parts, brium carbonate 39-46 parts, terpene
Olefine resin 14-16 parts, sodium alginate 29-36 parts, Talcum 7-9 parts, calcite 70-100 parts, limestone 30-35 parts.
Further, it is made up of the raw material of following weight portion:Described white fused alumina 23-24 parts, quartz 18-20 parts, Kaolin 19-
21 parts, zirconium dioxide 13-14 parts, Zinc Oxide 14-15 part, Copper Ores 8-9 parts, red Anhydrite 20-24 parts, sodium oxide 17-18 parts, chlorine
Change sodium 13-14 parts, potassium oxide 13-14 parts, lithium porcelain stone 17-18 parts, dolomite 13-14 parts, kyanite 17-18 parts, Maifanitum 13-
14 parts, calcium oxide 17-18 parts, titanium oxide 21-25 parts, stannum oxide 18-20 parts, calcium silicates 24-25 parts, brium carbonate 44-46 parts, terpene
Olefine resin 15-16 parts, sodium alginate 33-36 parts, Talcum 8-9 parts, calcite 90-100 parts, limestone 34-35 parts.
Further, it is made up of the raw material of following weight portion:24 parts of the white fused alumina, 20 parts of quartz, 21 parts of Kaolin, dioxy
Change 14 parts of zirconium, 15 parts of Zinc Oxide, 9 parts of Copper Ores, 24 parts of red Anhydrite, 18 parts of sodium oxide, 14 parts of Sodium Chloride, 14 parts of potassium oxide, lithium
18 parts of porcelain stone, 14 parts of dolomite, 18 parts of kyanite, 14 parts of Maifanitum, 18 parts of calcium oxide, 25 parts of titanium oxide, 20 parts of stannum oxide, silicon
25 parts of sour calcium, 46 parts of brium carbonate, 16 parts of terpene resin, 36 parts of sodium alginate, 9 parts of Talcum, 100 parts of calcite, 35 parts of limestone.
Further, it is made up of the raw material of following weight portion:23 parts of the white fused alumina, 18 parts of quartz, 19 parts of Kaolin, dioxy
Change 13 parts of zirconium, 14 parts of Zinc Oxide, 8 parts of Copper Ores, 20 parts of red Anhydrite, 17 parts of sodium oxide, 13 parts of Sodium Chloride, 13 parts of potassium oxide, lithium
17 parts of porcelain stone, 13 parts of dolomite, 17 parts of kyanite, 13 parts of Maifanitum, 17 parts of calcium oxide, 21 parts of titanium oxide, 18 parts of stannum oxide, silicon
24 parts of sour calcium, 44 parts of brium carbonate, 15 parts of terpene resin, 33 parts of sodium alginate, 8 parts of Talcum, 90 parts of calcite, 34 parts of limestone.
According to another aspect of the present invention, a kind of preparation method of ceramic glaze is additionally provided, its step is:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 180 ° -360 ° clockwise are stirred and continue
2-3 hours, then carry out 180 ° -360 ° counterclockwise and be stirred and continue 3-4 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10-12min under microwave frequency 2000-2450MHz, power 700-800W,
Glaze is obtained, is then placed into glaze standby in glaze material pond.
Beneficial effect:In the present invention, the ceramic glaze is by using white fused alumina proportioning plurality of raw materials and carries out special process
Prepare, wherein improving its anti-wear performance using white fused alumina, can well protect ceramic, solve existing glaze wearability
Poor problem, solves the problems, such as that glaze wears no resistance in existing ceramic, meets very well the use requirement of user.
Specific embodiment
Embodiment 1
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:23 parts of white fused alumina, quartzy 18 parts, Kaolin 19
Part, 13 parts of zirconium dioxide, 14 parts of Zinc Oxide, 8 parts of Copper Ores, 20 parts of red Anhydrite, 17 parts of sodium oxide, 13 parts of Sodium Chloride, potassium oxide
13 parts, 17 parts of lithium porcelain stone, 13 parts of dolomite, 17 parts of kyanite, 13 parts of Maifanitum, 17 parts of calcium oxide, 21 parts of titanium oxide, stannum oxide
18 parts, 24 parts of calcium silicates, 44 parts of brium carbonate, 15 parts of terpene resin, 33 parts of sodium alginate, 8 parts of Talcum, 90 parts of calcite, Calx
34 parts of stone.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 180 ° clockwise are stirred and to continue 2 little
When, then carry out 180 ° counterclockwise and be stirred and continue 3 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10min under microwave frequency 2000MHz, power 700W, obtains glaze, then
Glaze is placed into standby in glaze material pond.
Embodiment 2
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:24 parts of white fused alumina, quartzy 20 parts, Kaolin 21
Part, 14 parts of zirconium dioxide, 15 parts of Zinc Oxide, 9 parts of Copper Ores, 24 parts of red Anhydrite, 18 parts of sodium oxide, 14 parts of Sodium Chloride, potassium oxide
14 parts, 18 parts of lithium porcelain stone, 14 parts of dolomite, 18 parts of kyanite, 14 parts of Maifanitum, 18 parts of calcium oxide, 25 parts of titanium oxide, stannum oxide
20 parts, 25 parts of calcium silicates, 46 parts of brium carbonate, 16 parts of terpene resin, 36 parts of sodium alginate, 9 parts of Talcum, 100 parts of calcite, Calx
35 parts of stone.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 200 ° clockwise are stirred and to continue 2.3 little
When, then carry out 200 ° counterclockwise and be stirred and continue 3.1 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10.1min under microwave frequency 2110MHz, power 710W, obtains glaze, so
Glaze is placed into afterwards standby in glaze material pond.
Embodiment 3
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:18 parts of white fused alumina, quartzy 12 parts, Kaolin 15
Part, 10 parts of zirconium dioxide, 9 parts of Zinc Oxide, 5 parts of Copper Ores, 15 parts of red Anhydrite, 14 parts of sodium oxide, 10 parts of Sodium Chloride, potassium oxide 10
Part, 14 parts of lithium porcelain stone, 10 parts of dolomite, 14 parts of kyanite, 10 parts of Maifanitum, 14 parts of calcium oxide, 12 parts of titanium oxide, stannum oxide 9
Part, 12 parts of calcium silicates, 32 parts of brium carbonate, 8 parts of terpene resin, 22 parts of sodium alginate, 2 parts of Talcum, 50 parts of calcite, limestone 10
Part.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 230 ° clockwise are stirred and to continue 2.5 little
When, then carry out 230 ° counterclockwise and be stirred and continue 3.2 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10.2min under microwave frequency 2123MHz, power 730W, obtains glaze, so
Glaze is placed into afterwards standby in glaze material pond.
Embodiment 4
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:19 parts of white fused alumina, quartzy 15 parts, Kaolin 16
Part, 11 parts of zirconium dioxide, 10 parts of Zinc Oxide, 6 parts of Copper Ores, 16 parts of red Anhydrite, 15 parts of sodium oxide, 11 parts of Sodium Chloride, potassium oxide
11 parts, 15 parts of lithium porcelain stone, 11 parts of dolomite, 15 parts of kyanite, 11 parts of Maifanitum, 15 parts of calcium oxide, 15 parts of titanium oxide, stannum oxide
12 parts, 15 parts of calcium silicates, 36 parts of brium carbonate, 10 parts of terpene resin, 25 parts of sodium alginate, 4 parts of Talcum, 60 parts of calcite, Calx
15 parts of stone.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 240 ° clockwise are stirred and to continue 2.5 little
When, then carry out 240 ° counterclockwise and be stirred and continue 3.5 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10.3min under microwave frequency 2210MHz, power 740W, obtains glaze, so
Glaze is placed into afterwards standby in glaze material pond.
Embodiment 5
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:20 parts of white fused alumina, quartzy 16 parts, Kaolin 16
Part, 12 parts of zirconium dioxide, 12 parts of Zinc Oxide, 7 parts of Copper Ores, 19 parts of red Anhydrite, 16 parts of sodium oxide, 12 parts of Sodium Chloride, potassium oxide
12 parts, 16 parts of lithium porcelain stone, 12 parts of dolomite, 16 parts of kyanite, 12 parts of Maifanitum, 16 parts of calcium oxide, 19 parts of titanium oxide, stannum oxide
15 parts, 16 parts of calcium silicates, 40 parts of brium carbonate, 12 parts of terpene resin, 30 parts of sodium alginate, 5 parts of Talcum, 70 parts of calcite, Calx
20 parts of stone.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 250 ° clockwise are stirred and to continue 2.6 little
When, then carry out 250 ° counterclockwise and be stirred and continue 3.6 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10.5min under microwave frequency 2220MHz, power 750W, obtains glaze, so
Glaze is placed into afterwards standby in glaze material pond.
Embodiment 6
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:22 parts of white fused alumina, quartzy 17 parts, Kaolin 17
Part, 13 parts of zirconium dioxide, 13 parts of Zinc Oxide, 8 parts of Copper Ores, 22 parts of red Anhydrite, 17 parts of sodium oxide, 13 parts of Sodium Chloride, potassium oxide
13 parts, 17 parts of lithium porcelain stone, 13 parts of dolomite, 17 parts of kyanite, 13 parts of Maifanitum, 17 parts of calcium oxide, 21 parts of titanium oxide, stannum oxide
17 parts, 17 parts of calcium silicates, 43 parts of brium carbonate, 14 parts of terpene resin, 32 parts of sodium alginate, 6 parts of Talcum, 80 parts of calcite, Calx
30 parts of stone.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 300 ° clockwise are stirred and to continue 2.8 little
When, then carry out 300 ° counterclockwise and be stirred and continue 3.8 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 10.8min under microwave frequency 2320MHz, power 770W, obtains glaze, so
Glaze is placed into afterwards standby in glaze material pond.
Embodiment 7
Ceramic glaze is made up of the raw material of following portions by weight in the present embodiment:24 parts of white fused alumina, quartzy 20 parts, Kaolin 21
Part, 14 parts of zirconium dioxide, 15 parts of Zinc Oxide, 9 parts of Copper Ores, 24 parts of red Anhydrite, 18 parts of sodium oxide, 14 parts of Sodium Chloride, potassium oxide
14 parts, 18 parts of lithium porcelain stone, 14 parts of dolomite, 18 parts of kyanite, 14 parts of Maifanitum, 18 parts of calcium oxide, 25 parts of titanium oxide, stannum oxide
20 parts, 25 parts of calcium silicates, 46 parts of brium carbonate, 16 parts of terpene resin, 36 parts of sodium alginate, 9 parts of Talcum, 100 parts of calcite, Calx
35 parts of stone.
Preparation method is comprised the following steps:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite,
Maifanitum, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, oxidation
Calcium, titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 360 ° clockwise are stirred and to continue 3 little
When, then carry out 360 ° counterclockwise and be stirred and continue 4 hours, obtain stirring thing A;
Step 4, obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Stirring thing A is sufficiently mixed, and microwave treatment 12min under microwave frequency 2450MHz, power 800W, obtains glaze, then
Glaze is placed into standby in glaze material pond.
The contrast experiment of anti-wear performance will be carried out by ceramic glaze obtained in said method and existing ceramic glaze, contrast is real
The method and experimental result tested is as shown in table 1.
Table 1
It is of the invention compared with existing ceramic glaze from table 1, with preferable anti-wear performance.
Beneficial effect:In the present invention, the ceramic glaze is by using white fused alumina proportioning plurality of raw materials and carries out special process
Prepare, wherein improving its anti-wear performance using white fused alumina, ceramic can be well protected, in solving existing ceramic
The problem that glaze wears no resistance, meets very well the use requirement of user.
Above-described is only some embodiments of the present invention.For the person of ordinary skill of the art, not
On the premise of departing from the invention design, some deformations and improvement can also be made, these belong to the protection model of the present invention
Enclose.
Claims (7)
1. a kind of ceramic glaze, it is characterised in that be made up of the raw material of following weight portion:White fused alumina 18-24 parts, quartz 12-20 parts,
Kaolin 15-21 parts, zirconium dioxide 10-14 parts, Zinc Oxide 9-15 part, Copper Ores 5-9 parts, red Anhydrite 15-24 parts, sodium oxide
14-18 parts, Sodium Chloride 10-14 part, potassium oxide 10-14 parts, lithium porcelain stone 14-18 parts, dolomite 10-14 parts, kyanite 14-18
Part, Maifanitum 10-14 parts, calcium oxide 14-18 parts, titanium oxide 12-25 parts, stannum oxide 9-20 parts, calcium silicates 12-25 parts, carbonic acid
Barium 32-46 parts, terpene resin 8-16 parts, sodium alginate 22-36 parts, Talcum 2-9 parts, calcite 50-100 parts, limestone 10-35
Part.
2. a kind of ceramic glaze according to claim 1, it is characterised in that be made up of the raw material of following weight portion:It is described white
Corundum 20-24 parts, quartz 15-20 parts, Kaolin 17-21 parts, zirconium dioxide 11-14 parts, Zinc Oxide 10-15 part, Copper Ores 6-9
Part, red Anhydrite 16-24 parts, sodium oxide 16-18 parts, Sodium Chloride 11-14 part, potassium oxide 11-14 parts, lithium porcelain stone 15-18 parts, white clouds
Stone 11-14 parts, kyanite 15-18 parts, Maifanitum 11-14 parts, calcium oxide 15-18 parts, titanium oxide 15-25 parts, stannum oxide 11-20
Part, calcium silicates 15-25 parts, brium carbonate 33-46 parts, terpene resin 11-16 parts, sodium alginate 23-36 parts, Talcum 3-9 parts, Fang Xie
Stone 59-100 parts, limestone 19-35 parts.
3. a kind of ceramic glaze according to claim 2, it is characterised in that be made up of the raw material of following weight portion:It is described white
Corundum 22-24 parts, quartz 17-20 parts, Kaolin 18-21 parts, zirconium dioxide 12-14 parts, Zinc Oxide 13-15 part, Copper Ores 7-9
Part, red Anhydrite 17-24 parts, sodium oxide 17-18 parts, Sodium Chloride 13-14 part, potassium oxide 13-14 parts, lithium porcelain stone 16-18 parts, white clouds
Stone 12-14 parts, kyanite 16-18 parts, Maifanitum 12-14 parts, calcium oxide 16-18 parts, titanium oxide 19-25 parts, stannum oxide 15-20
Part, calcium silicates 19-25 parts, brium carbonate 39-46 parts, terpene resin 14-16 parts, sodium alginate 29-36 parts, Talcum 7-9 parts, Fang Xie
Stone 70-100 parts, limestone 30-35 parts.
4. a kind of ceramic glaze according to claim 3, it is characterised in that be made up of the raw material of following weight portion:It is described white
Corundum 23-24 parts, quartz 18-20 parts, Kaolin 19-21 parts, zirconium dioxide 13-14 parts, Zinc Oxide 14-15 part, Copper Ores 8-9
Part, red Anhydrite 20-24 parts, sodium oxide 17-18 parts, Sodium Chloride 13-14 part, potassium oxide 13-14 parts, lithium porcelain stone 17-18 parts, white clouds
Stone 13-14 parts, kyanite 17-18 parts, Maifanitum 13-14 parts, calcium oxide 17-18 parts, titanium oxide 21-25 parts, stannum oxide 18-20
Part, calcium silicates 24-25 parts, brium carbonate 44-46 parts, terpene resin 15-16 parts, sodium alginate 33-36 parts, Talcum 8-9 parts, Fang Xie
Stone 90-100 parts, limestone 34-35 parts.
5. a kind of ceramic glaze according to claim 4, it is characterised in that be made up of the raw material of following weight portion:It is described white
24 parts of corundum, 20 parts of quartz, 21 parts of Kaolin, 14 parts of zirconium dioxide, 15 parts of Zinc Oxide, 9 parts of Copper Ores, 24 parts of red Anhydrite, oxygen
Change 18 parts of sodium, 14 parts of Sodium Chloride, 14 parts of potassium oxide, 18 parts of lithium porcelain stone, 14 parts of dolomite, 18 parts of kyanite, 14 parts of Maifanitum, oxygen
Change 18 parts of calcium, 25 parts of titanium oxide, 20 parts of stannum oxide, 25 parts of calcium silicates, 46 parts of brium carbonate, 16 parts of terpene resin, sodium alginate 36
Part, 9 parts of Talcum, 100 parts of calcite, 35 parts of limestone.
6. a kind of ceramic glaze according to claim 4, it is characterised in that be made up of the raw material of following weight portion:It is described white
23 parts of corundum, 18 parts of quartz, 19 parts of Kaolin, 13 parts of zirconium dioxide, 14 parts of Zinc Oxide, 8 parts of Copper Ores, 20 parts of red Anhydrite, oxygen
Change 17 parts of sodium, 13 parts of Sodium Chloride, 13 parts of potassium oxide, 17 parts of lithium porcelain stone, 13 parts of dolomite, 17 parts of kyanite, 13 parts of Maifanitum, oxygen
Change 17 parts of calcium, 21 parts of titanium oxide, 18 parts of stannum oxide, 24 parts of calcium silicates, 44 parts of brium carbonate, 15 parts of terpene resin, sodium alginate 33
Part, 8 parts of Talcum, 90 parts of calcite, 34 parts of limestone.
7. a kind of preparation method of the ceramic glaze as any one of claim 1-6, it is characterised in that its step is:
Step one, by the white fused alumina of above-mentioned weight portion, quartz, Copper Ores, red Anhydrite, lithium porcelain stone, dolomite, kyanite, wheat meal
Stone, Talcum, calcite, limestone pulverizer wear into fine powder, cross 150 mesh sieves, take 150 mesh fine powders, obtain mixture A;
Step 2, by the Kaolin of above-mentioned weight portion, zirconium dioxide, Zinc Oxide, sodium oxide, Sodium Chloride, potassium oxide, calcium oxide,
Titanium oxide and stannum oxide are mixed, and obtain mixture B;
Step 3, is stirred to mixture A and mixture B, and first 180 ° -360 ° clockwise are stirred and continue 2-3
Hour, then carry out 180 ° -360 ° counterclockwise and be stirred and continue 3-4 hours, obtain stirring thing A;
Step 4, by the stirring obtained by the calcium silicates of above-mentioned weight portion, brium carbonate, terpene resin, sodium alginate and step 3
Thing A is sufficiently mixed, and microwave treatment 10-12min under microwave frequency 2000-2450MHz, power 700-800W, is obtained
Glaze, is then placed into glaze standby in glaze material pond.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110040963A (en) * | 2019-03-29 | 2019-07-23 | 合肥卓越义齿制作有限公司 | A kind of precious metal stove enamel tooth ivory white glaze and its application method |
CN113200734A (en) * | 2021-06-25 | 2021-08-03 | 重庆名檀陶瓷有限公司 | High-stability pottery pot with low water absorption rate and preparation method thereof |
CN113248142A (en) * | 2021-05-20 | 2021-08-13 | 福建省德化友盛陶瓷有限公司 | Gradient wire-drawing glaze and method for preparing gradient wire-drawing glaze ceramic product by using same |
CN113998998A (en) * | 2021-09-29 | 2022-02-01 | 福建省德化弘展艺品有限公司 | Rapid solidification forming process of refractory ceramic |
CN114380502A (en) * | 2022-01-27 | 2022-04-22 | 佛山市百善孝先无机化学原料有限公司 | Dry ceramic particles with pearl effect and preparation method and application method thereof |
CN115784613A (en) * | 2023-01-06 | 2023-03-14 | 山东硅元新型材料股份有限公司 | Tea dust glaze fired by oxidizing flame and preparation method thereof |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1216986A (en) * | 1970-06-04 | 1970-12-23 | Ve Wissenschaftlich Tech Betr | Glazed ciramic article |
CN104310953A (en) * | 2014-09-28 | 2015-01-28 | 曾文光 | Method for preparing medium-temperature high-alumina high-strength domestic ceramics |
CN105948503A (en) * | 2016-04-29 | 2016-09-21 | 佛山市东鹏陶瓷有限公司 | Wear-resistant transparent glaze and method for preparing glazed tile by utilizing same |
-
2016
- 2016-11-03 CN CN201610955108.5A patent/CN106565089A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1216986A (en) * | 1970-06-04 | 1970-12-23 | Ve Wissenschaftlich Tech Betr | Glazed ciramic article |
CN104310953A (en) * | 2014-09-28 | 2015-01-28 | 曾文光 | Method for preparing medium-temperature high-alumina high-strength domestic ceramics |
CN105948503A (en) * | 2016-04-29 | 2016-09-21 | 佛山市东鹏陶瓷有限公司 | Wear-resistant transparent glaze and method for preparing glazed tile by utilizing same |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110040963A (en) * | 2019-03-29 | 2019-07-23 | 合肥卓越义齿制作有限公司 | A kind of precious metal stove enamel tooth ivory white glaze and its application method |
CN113248142A (en) * | 2021-05-20 | 2021-08-13 | 福建省德化友盛陶瓷有限公司 | Gradient wire-drawing glaze and method for preparing gradient wire-drawing glaze ceramic product by using same |
CN113248142B (en) * | 2021-05-20 | 2023-05-12 | 福建省德化友盛陶瓷有限公司 | Gradual change wiredrawing glaze and method for preparing gradual change wiredrawing glaze ceramic product by using same |
CN113200734A (en) * | 2021-06-25 | 2021-08-03 | 重庆名檀陶瓷有限公司 | High-stability pottery pot with low water absorption rate and preparation method thereof |
CN113998998A (en) * | 2021-09-29 | 2022-02-01 | 福建省德化弘展艺品有限公司 | Rapid solidification forming process of refractory ceramic |
CN114380502A (en) * | 2022-01-27 | 2022-04-22 | 佛山市百善孝先无机化学原料有限公司 | Dry ceramic particles with pearl effect and preparation method and application method thereof |
CN114380502B (en) * | 2022-01-27 | 2024-01-02 | 佛山市美添功能材料有限公司 | Ceramic dry particle with pearl effect and preparation method and application method thereof |
CN115784613A (en) * | 2023-01-06 | 2023-03-14 | 山东硅元新型材料股份有限公司 | Tea dust glaze fired by oxidizing flame and preparation method thereof |
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