KR20030043542A - manufacture metal latex and pored pottery - Google Patents

Abstract

PURPOSE: Provided is a preparation method of metallic glaze applied to pottery by using Au, Ag, Al, Cu, Ni, etc. The metal-glazed pottery is newly adapted to construction and living fields. CONSTITUTION: The Al(or Cu)-glaze contains 5kg of aluminum(copper), 10kg of feldspar, 10kg of white clay, 10kg of clay, 10kg of limestone, 3kg of BaCO3, 2kg of zinc, 5kg of talc, and 100L of water. The Ag-glaze contains 1kg of Ag, 10kg of feldspar, 5kg of talc, 10kg of limestone, 3kg of BaCO3, 2kg of Zn, and 50L of water. The Au-glaze contains 300g of Au, 10kg of feldspar, 10kg of talc, 3kg of clay, 7kg of white clay, 3kg of BaCO3, 2kg of zinc and 50L of water. The metal-glazed pottery is produced by dipping clay products to the above glaze and sintering at 1250deg.C.

Description

Manufacturing metal latex and porcelain pottery

The present invention relates to the manufacture of porcelain metal latex. The present technology completely eliminates the latex of ceramics widely used in household ceramics, building tiles, and toilets, and creates a new metal design to make the porcelain metals of the present invention, such as white porcelain, architectural ceramics, interiors, exteriors, or toilets. The use of latex is to create a new ceramic design that has not been found so far. In order to provide a new metal porcelain latex in the present invention, first, the present invention will be described as follows. As the design of Tairu and toilets have been applied to our lives for a long time, the design has been fixed in our eyes, and its changes and uses are reaching its limits. The present invention is to provide a technique that can create a new design, such as a conventional tyre, toilet bowl. First of all, in order to make aluminum tires or architectural interiors and exterior materials in the metal latex of the present invention, aluminum powder, feldspar, clay, clay, barium carbonate, limestone, zinc, etc. are synthesized to form an emulsion to use tyru or architectural interiors and exterior materials. The elegant luster and performance of aluminum is a new design not found in tairu or aluminum so far. In addition, gold powder is used to make the aluminum metal latex, and when the golden latex is used to make a golden toilet or alloy tire, etc., the design, as well as the finest interior and exterior materials can be made. You can also make high-quality golden bowl ornaments or make silver bowls. Silver (銀) has long been used by the nobility in the royal family due to its high stability in antibacterial metals. When the food was put in silver bowls, the freshness of the foods lasted long and was not easily broken, and the silver bowls were highly regarded and used by the aristocracy. In modern times, it is reported that all germs and viruses on the ground are in contact with silver and survive for 6 minutes. Therefore, the inorganic antimicrobial activity against silver is highly appreciated. In addition, if the present invention looks at the production of the same metal emulsion, etc. are as follows. Although copper has been widely used as an antibacterial metal since ancient times, it has been found to cause genetic variation in modern times, and its use is regulated solely. Copper has a high bactericidal effect, but is oxidized in water and air to induce nitrous copper. The present invention is excellent in antibacterial and deodorizing the toilet when using the toilet bowl made of copper powder to feldspar, clay, clay, barium carbonate, aluminum, limestone, etc. in order to secure the disadvantages of this motion and utilize antibacterial and bactericidal. have. In addition, it is excellent in antibacterial and deodorizing effect when used as a tairu, copper or building material such as bath. However, while copper forms a metal emulsion, it has been confirmed that minerals and inorganic substances are synthesized with the copper powder to melt, so that they do not oxidize well with water or air and have high stability. In addition, in the present invention, when the aluminum metal latex is made and used as a building material, it is not only higher in stability than the existing aluminum sash or aluminum used as a building material, but also has a wider use, has a gloss than the existing aluminum, does not wear well, and is well oxidized. It is not characteristic. Nickel and others are also very hard to make powder. In the present invention, nickel chloride is dissolved in water to blow off chlorine, and substituted with feldspar, clay, clay, limestone, barium carbonate, zinc, etc. using sodium citrate and a reducing agent to provide a latex nickel unique porcelain emulsion. It is a skill. The manufacture of latex ceramics, which are widely used at present, is not known because it is known.

The present invention provides an idea that can not be found in the existing porcelain latex to create a new metal ceramic latex and apply it to living ceramics, while using the latex of the present invention for building materials, such as silver bowl golden tableware golden toilet and golden Thai bath It is to develop new ceramic design by developing technology that can newly apply high-quality metal latex to living ceramics and building materials by providing technology such as interior and exterior materials.

Looking at the configuration of the ceramic metal latex production of the present invention as follows. The metal latex that can be prepared for the ceramic ceramic latex is aluminum metal latex, the same metal latex and the nickel metal latex of the nickel metal and remove the nickel metal latex and look at the production as follows. First, silver powder which is pulverized silver and gold powder which are commercially available as a powder can be used, and aluminum powder and copper powder are widely marketed in the market. If you look briefly to the manufacture of metal ware latex as follows. If you look at silver first, you can pull 1800m of thread using 1g of silver. When silver is powdered into small particles, the surface density and tension that silver spreads to an emulsion etc. are very large. First, 1000g of silver powder is synthesized into 10kg of feldspar, 5kg of clay, 5kg each of limestone, 10kg of limestone, 3kg of barium carbonate, 2kg of zinc, and 5kg of talc, dissolved in 50ι of water to form a silver metal ceramic emulsion, soaking the emulsion in a bowl or the like. It is a technique of making silverware by baking with heat of 1250 ℃. In addition, if it looks like the gold latex latex is as follows. Gold powder 300g feldspar, talc 10kg and 5kg clay, 7kg clay 7kg, lime 5kg, zinc 2kg, barium carbonate were synthesized and dissolved in 50 ι of water to make a gold porcelain latex. By firing at ℃ it can provide a golden bowl golden bowl golden bowl. Aluminum metal pottery latex is composed of 5kg aluminum powder, 10kg feldspar, 5kg talc, 10kg clay, 10kg clay, 3kg barium carbonate, 2kg zinc and dissolved in 100ι of water to make aluminum metal latex. It can be immersed in and calcined at 1250 ℃ heat to make the aluminum emulsion ceramic of the present invention. In addition, the copper powder contains 3kg of copper powder in the same amount as aluminum, and the use of aluminum metal emulsion and the firing temperature are the same. The oil is mainly applicable to toilets or builders. If you look at Nickel metal emulsion production, it is very difficult to powder Nickel and there is no powder available. The present invention dissolves 10 kg of titanium chloride well dissolved in water in 70ι water and boils for 20 minutes at 100 ° C. heat to blow chlorine and synthesizes 10 kg of feldspar, 10 kg of talc, 10 kg of limestone, 5 kg of clay clay, 3 kg of barium carbonate and 2 kg of zinc. By dissolving 1 ι of reducing agent hydroxy and 500 g of sodium citrate in the nickel chloride, and then dissolving the material in 60 ι of water to make an emulsion, immersing it in building materials, etc. and baking it at 1250 ° C. to provide nickel metal ceramics. Techniques, etc. will be described in more detail in the examples.

Example 1

Pottery Metal Latex Manufacture Aluminum, silver, gold, copper metal

1st process

Aluminum powder 5kg, feldspar 10kg, white clay 10kg, clay 10kg, limestone 10kg, barium carbonate 3kg, zinc 2kg, talc 5kg is synthesized to determine the aluminum metal latex.

2nd process

5 kg of copper powder is synthesized in place of the aluminum powder in the chemical of the first step to form a copper metal emulsion.

3rd process

1kg of pulverized silver particles and 10kg of feldspar, 5kg of talc, 5kg of limestone, 10kg of limestone, 3kg of barium carbonate and 2kg of zinc were synthesized and dissolved in 50ι of water to make silver metal emulsion.

4th process

300 g of gold powder, 10 kg of feldspar, 10 kg of talc, 3 kg of clay, 7 kg of clay, 5 kg of limestone, 3 kg of barium carbonate, and 2 kg of zinc are synthesized and stirred in 50ι of water to form a gold porcelain emulsion.

5th process

10 kg of nickel chloride was dissolved in 20ι of water, boiled for 20 minutes at 100 ° C. heat, and 500 g of sodium citrate and 1 ι of hydroxyxine as a reducing agent were reacted by stirring. In addition, 10 kg of feldspar, 10 kg of talc, 5 kg of clay, 5 kg of clay, 5 kg of limestone, 10 kg of limestone, 3 kg of barium carbonate, and 2 kg of zinc were synthesized and dissolved in 60 ° of water to form a nickel metal emulsion.

Example 2

How to use metal latex

1st process

It is a technique of making a functional metal ware by immersing the emulsion in the ceramics for each use of the metal latex of Example 1 by firing process in 1250 ℃ heat.

The present invention has the effect of providing a beautiful and elegant functional ceramics while creating a new ceramic design because it is made of metal latex not found in the existing ceramic latex and applied to living ceramics or building materials.

Claims (1)

Aluminum powder, copper powder, and silver powder, which are metal powders, are feldspar, talc, clay, clay, barium carbonate, zinc, and the like, which are currently widely used as (white porcelain) emulsions in household ceramics, in the proportion of metal Example 1. Synthesis by using the method of Example 2 to create a metal latex to use as a ceramic or building materials