Slip for producing glase coating |
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IPC classes for russian patent Slip for producing glase coating (RU 2434818):
Charge for glase production / 2430039
Charge for glase production contains the following components, wt %: broken window sheet and/or container glass 76-82, kaolin 3-4, soda ash 1-2, zircon 8-11, pegmatite 5-8.
Slip for obtainment of glaze coating / 2346900
Invention can be applied in manufacturing of porcelain and faience goods. Glaze slip includes components at the following ratio, wt %: frit 100.0; clay 0.5-1.5; zircon 4.0-5.0; water 40.0-50.0; silica gel 4.0-5.0; barium carbonate 0.7-1.7; sodium chloride 0.1-0.2; sodium tripolyphosphate 0.1-0.2; calcium borate 3.0-4.0. Frit has the following composition, wt %: SiO2 47.0-50.0; ZrO2 4.0-8.0; B2O3 18.0-22.0; MgO 2.0-4.0; K2O 2.8-3.8; F' 0.1-0.2; TiO2 8.0-10.0; BaO 2.0-4.0; ZnO 4.0-8.0.
Mixture for making glaze / 2341471
Proposed mixture for making glaze consists of crushed window and/or container glass, kaolin and titanium slag. The components have the following ratio, in wt %: crushed window and/or container glass 65-75; kaolin 2-4; titanium slag 21-33.
 Colored glaze / 2243173
The invention relates to methods of producing colored glaze, used in production of decorative, utilitarian and economic purposes
 The powder mixture to obtain metal-ceramic coating / 2170714
The invention relates to the creation of defenses of Nickel-based alloys from exposure to aggressive environments, in particular to metal-ceramic coatings used to protect structures of power plants
Charge for glase production / 2430035
Charge for glase production contains the following components, wt %: broken window sheet and/or container glass 71-76, kaolin 3-4, soda ash 3-4, nepheline syenite 18 - 21.
Glase / 2430034
Glase contains the following components, wt %: SiO2 45.0-49.0; Al2O3 4.0-5.0; B2O3 4.0-5.0; CaO 4.0-5.0; MgO 4.0-5.0; K2O 4.0-5.0; SnO2 27.0-29.0.
Engobe / 2430033
Engobe contains the following components, wt %: light burnt clay 73.0 - 76.0, broken glass 16.0 - 18.0, talc 8.0-9.0.
Enamel frit for glass facing tile / 2430032
Enamel frit for glass facing tile includes the following components, wt %: SiC2 10.0-15.0; B2O3 73.0-80.0; SnO2 2.0-3.0; ZrO2 2.0-3.0; MgO 5.0-7.0.
Tin glase / 2430031
Glase includes the following components, wt parts: SiC2 50.0-53.0; SnO2 28.0-30.0; Al2O3 1.0-2.0; CaO 7.0-9.0; MgO 4.0-6.0; Na2O 4.0-6.0.
Glase mixture / 2428401
Invention relates to the technology of silicates and a glase mixture for applying on ceramic tiles and stove tiles. The glase mixture contains the following in wt %: pegmatite 26-30; quartz sand 50-54; borax 6-8; dolomite 1-1.5; calcined soda 2-2.5, boric acid 2-3; bone ash 3-4; alumina 3-4.
Glase / 2428400
Invention relates to glase compositions for coating ceramic tiles, roofing tiles and articles for decorative and art purposes. The glase contains the following in pts.wt: quartz sand 55-57, potash 13-15, soda 13-15, cobalt oxide 0.4-0.6, copper oxide 1.4-1.6, fluorspar 13-15.
Tin glase / 2428387
Invention relates to production of construction materials and may by used for coating of fireplace tile. Glase comprises in wt %: SiO2 - 42.3-49.5; SnO2 25.0-27.0; Al2O3 - 12.0-16.0; CaO - 1.0-1.5; MgO - 4.5-5.5; Na2O - 5.5-6.5; Cr2O3 - 1.5-2.0.
Glase / 2424994
Invention relates to the technology of silicates and glase compositions for applying on ceramics made from red low-melting clay, for example ceramic figurines, souvenirs and chandeliers. The glase contains the following in wt %: Al2O3 5.0-6.0; B2O3 52.0-77.9; CaO 5.0-6.0; MgO 5.0-6.0; K2O 5.0-6.0; Fe2O3 0.1-26.0.
Glase frit / 2424993
Invention relates to the technology of silicates and frit compositions for preparing glase for applying on majolica articles. The glase frit contains of the following in wt %: quartz sand -40.0-48.0; pegmatite 13.0-17.0; borax 7.0-10.0; soda 13.0-17.0; chalk 2.0-3.0; nepheline syenite 13.0-17.0.
Protective coat / 2249571
Claimed coat contains (wt %): SiO2 - 0.1-10; SiB4 - 0.1-0.5; MoSi2 - 0.2-5; SiC - 1/5-10; and balance: Si3C5H15O0.25. Protective coat of present invention make it possible to obtain composites with operating temperature up to 1600°C.
Glaze / 2255921
Invention relates to the glaze composite used in manufacturing facade plates and glazed brick. Glaze comprises components taken in the following ratio, wt.-%: SiO2, 46.0-52.0; Al2O3, 7.0-14.0; B2O3, 12.0-14.0; MgO, 1.5-2.5; Na2O, 6.0-7.5; K2O, 5.0-6.0; SrO, 8.0-12.0. Glaze can comprise additionally pigments, for example, Co3O4 in the amount 1.2-2.0 wt.-% or CuO in the amount 2.5-3.5 wt.-%. Glaze shows high fluidity coefficient and good covering power. Invention provides preparing strontium-magnesium-boron glaze showing relatively low roasting temperature (700-750°C), high resistance to cold and thermal stability that allows its using for manufacturing glazed bricks that endure large temperature drops and reducing its cost also.
Transparent glaze / 2259326
Invention proposes transparent glaze in manufacturing materials used in building industry, in particular, for covering articles for decorative, utilitarian and household designation, ceramic tiles. Transparent glaze comprises SiO2, Al2O3, B2O3, CaO, MgO, Na2O, K2O, Fe2O3 and TiO2 in the following content of components, wt.-%: SiO2, 50.1-67.0; Al2O3, 2.2-2.7; B2O3, 8.0-20.0; CaO, 1.5-8.2; MgO, 1.0-8.0; Na2O, 4.2-9.3; K2O, 0.5-9.30; Fe2O3, 0.15-0,25, and TiO2, 0.1-4.0. Glaze shows high spreading capacity and absence of crackle.
 Enamel (variants) / 2259328
Invention relates to materials used for protection of metals against corrosion. Invention proposes variants of enamel composites comprising oxides of silicon, sodium, boron, aluminum, calcium, cobalt, manganese and iron and fluorine also and comprising additionally oxides of lithium, potassium and magnesium or oxides of lithium, chrome and vanadium in the following ratio of components, wt.-%: SiO2, 37-47; Na2O, 17-22; B2O3, 14-21; Al2O3, 5-8; CaO, 1-3; Co2O3, 0.6-0.9; MnO, 1.0-2.5; Fe2O3, 1.5-3.0; Li2O, 0.8-2.0; K2O, 0.5-3.0; MgO, 0.15-2.0, and F, 0.5-3.0; or SiO2, 37-51; Na2O. 16-24; B2O3, 17-22; Al2O3, 5-10; CaO, 1-5; Co2O3, 1.1-1.6; MnO, 1-3; Fe2O3, 2-4; Li2O, 1-2; Cr2O3, 1-3; V2O3, 1-4, and F, 1-4. As charge materials in alloying enamel method involves cobalt and aluminum-chrome concentrates from technogenic waste of the following composition, wt.-%: Co2O3, 45-80; MnO, 0.05-6.0; Fe2O3, 2-12; SiO2, 6-24; Al2O3, 3-12; CaO, 2-8; Na2O, 3-11; Cr2O3, 0.05-6.0, and Al2O3, 60-75; Cr2O3, 10-20; SiO2, 2-8; K2O, 2-5; Fe2O3, 0.05-3.0, respectively. Invention provides the development of enamels and covers made of them showing high complex of technological, mechanical and exploitation properties, among them acid-resistance and abrasive resistance. Invention can be used in manufacturing silicate enamels for steel carbonaceous (below 0.5% of carbon) articles for domestic and technical designation.
Enamel for silicate articles / 2263638
Invention relates to finishing silicate-made articles with permanent protective-decorative coatings. Enamel for silicate articles comprises the following components, wt.-%: SiO2, 56.0-60.0; CaO, 6.0-8.0; Na2O and/or K2O, 27.0-31.0; B2O3, 4.5-5.5; CuO, 0.5-1.5. Enamel comprises additionally F- in the amount 2.0-4.0 wt.-%. Invention provides usefulness for high-temperature finishing surface of silicate-made articles.
Electrical insulating enamel for products made out of stainless steel / 2264994
The invention is pertaining to the methods of production of silicates, in particular, to electrical insulating enamels, and is intended for an insulating coating of the stainless steel base sheets, in particular, - electrodes of the ozone generators. The electrical insulating enamel has the following composition (in mass %):SiO2 - 25-35, SrO - 3-8, CoO - 0.5-1, NiO - 0.5-1,Na2O - 1-4,K2O - 3-5,Bi2O3 - 3-18, CuO - 0.2-1,Sb2O3 - 1-3,V2O5 -1-6, CaO - 4-7, CdO - 4-7, BaO - the rest. The technical result of the invention is a decrease of the coating temperature to 650-680°C and an increase of the temperature coefficient of linear expansion up to 156 ·10-7 l/°C.
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FIELD: chemistry. SUBSTANCE: invention relates to glasing heat resistant ceramic tiles and stove tiles. The slip for obtaining glase coating contains the following in pts.wt: frit 100; clay 4-6; zircon 1-1.5; water 40-50; tin oxide 10-14; chamotte 6-8. The frit is prepared from the following components, pts.wt: clay 2-3; zircon 2-3; tin oxide 10-14; borax 10-14; quartz sand 68-74. EFFECT: obtaining heat-resistant glase coating on the surface of ceramic articles. 2 cl, 2 tbl
The invention relates to glazing heat-resistant ceramic tiles, stove tiles. Known slip to obtain glaze washed, including parts: Frit 100; clay 8-10; zircon 2-4; water 40-45; Krempel 5-10 [1]. The objective of the invention is to obtain a heat-resistant glaze coating PA surface of ceramic products. The technical result is achieved by the fact that the slip to obtain a glaze coating comprising a Frit, clay, zircon, water, additionally contains tin oxide and clay in the following ratio of components, parts: Frit 100; clay 4-6; zircon 1-1,5; water 40-50; tin oxide 10-14; chamotte 6-8. For the preparation of Frits to use the following components, parts: clay 2-3; zircon 2-3; tin oxide 10-14, borax 10-14; quartz sand 68-74. In table 1 shows the composition of the slurry, in table 2 - composition of Frits.
For the preparation of the slip is most preferable use of clays Prosjanskogo, Buyerswho, Druzhkivka, Veselovsky fields. Components (table 2) metered required in the s quantities and melted at a temperature of 1430-1480°C. Melt granularit in the water. Components (table 1) are loaded into a ball mill and grind to rest no more than 2% on mesh No. 0056. The obtained slurry is applied onto the surface of the ceramic products and calcined in the temperature range 1100-1200°C. the Temperature glaze coating is at least 10 thermal cycles. Sources of information 1. SU 1000432, 1983. 1. The slip to obtain a glaze coating comprising a Frit, clay, zircon, water, characterized in that it further contains tin oxide and clay in the following ratio of components, parts:
2. The slip to obtain a glaze coating according to claim 1, characterized in that for the preparation of Frits to use the following components, parts:
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