KR20010019223A - Artificial stone materials and preparation thereof - Google Patents

Abstract

PURPOSE: A manufacturing method of artificial stone materials is provided to save manufacturing costs, control size of and shape and lower sintering temperature(1000-1100deg.C) by adding waste glass powder to ceramic materials. The obtained artificial stone materials have a light weight and is applied to plate demanding a thin thickness. CONSTITUTION: The artificial stone materials are manufactured by adding 20-40wt.% of waste glass powder(about 60-650mesh) to a conventional raw materials such as kaolin, clay and white clay, followed by forming, drying, glazing and sintering.

Description

Artificial stone materials and preparation method thereof

The present invention relates to a method for producing artificial stone from the ceramic base containing waste glass fine powder and to an artificial stone produced accordingly. According to the present invention, it is possible to easily prepare the artificial stone material having excellent physical properties and appearance by blending the fine waste glass powder in various ceramic materials and molding, drying and firing in any size and shape.

Glass is one of ceramic products and has characteristics such as excellent decoration and transparency, and is widely used in electronic materials and electrical industries as well as building materials and automobile industry. However, like other ceramic products, they are widely used as basic materials or articles throughout industry and life, but due to the difficulty of disposal after their breakage or replacement, they cause problems such as additional costs and environmental pollution.

As a treatment method of waste glass or the like, recycling as a product itself, recycling as a raw material in a glass factory, or landfilling are currently used. Although the dual recycling method is recommended because it does not cause environmental problems, recycling as the product itself is limited due to hygiene and economic problems still remaining during collection and cleaning, and recycling as raw materials in glass factories is also collected and washed, and There is an additional cost for the removal of additional components in the manufacture of glass products, and to prevent this, it is difficult to classify waste glass by glass products and thus it is not widely used. In this situation, most waste glass treatments are economically disadvantageous and rely almost entirely on landfills that cause environmental pollution.

In general, ceramic products are based on triaxial components containing clay, silica and feldspar as main ingredients, and these clays, silica and feldspar are mainly silicate.

The chemical composition of glass, which is one of the ceramic products, is composed of about 7 to 74% of SiO _2, about 14 to 15% of Na ₂ O, and about 7 to 14% of CaO + MgO, based on plate glass and bottle glass. Other contains Al ₂ O ₃ and Fe ₂ O ₃ trace. These ceramic products have different manufacturing processes, such as composition ratio, additives, and firing temperature, depending on the type of product. However, the materials for manufacturing ceramic products are substantially the same raw materials are formulated to have an appropriate composition as needed, so the overall composition is similar. Do.

Thus, the inventors of the present invention, while studying the treatment of such waste glass from industrial and living sites with little environmental pollution or additional costs, are made of glass from substantially the same raw materials as other ceramic products, Focusing on the similar composition, it was investigated whether or not the phe glass could be pulverized and added to other ceramic products. As a result, it has been found that the manufacturing of ceramic products from mixed bases containing waste glass fine powder has many advantages over the manufacture of ceramic products using only existing materials, and the manufactured products have the same or superior properties. .

The present inventors have further studied, and found that the present invention exhibits various advantages when manufacturing artificial stone from the base material mixture (particle size 120-325 mesh) in which such waste glass powder is mixed with clay, silica and the like, and completed the present invention.

According to the present invention, the artificial stone produced from the ceramic base material containing waste glass powder is often similar to the physical properties of the natural stone or more excellent in strength and the like. There is a great advantage that the balls can be easily manufactured in various sizes, and that they can have a beautiful texture and color by using coloring and / or glaze as needed.

It is therefore an object of the present invention to provide a method for producing artificial stone from a ceramic base blend comprising fine powder made by pulverizing waste glass.

Another object of the present invention is to provide an artificial stone produced according to the above method.

Another object of the present invention is to provide an artificial stone that can be used as a plate.

In the present invention, the waste glass fine powder means a fine powder of all glass which can achieve the object of the present invention, including fine powder prepared from waste glass.

In the present invention, the base material for ceramics encompasses and encompasses raw materials and mixtures thereof used for producing ceramic products, particularly artificial stone.

Still other objects and advantages of the present invention will become more apparent from the following.

Pewuri is emerging a lot in industrial and living fields. Although the chemical composition varies slightly depending on the glass product, according to the present invention, the kind of such glass is not very important. However, it is preferable to use waste glass which is easy to collect in a large quantity and has a relatively constant composition, and more preferably, colorless or near colorless waste glass.

At present, the waste glass for automobiles generated at an automobile repair shop is not only having difficulty in processing such as having to pay a collection fee, but also easily collects a large amount of waste glass having a relatively constant composition. Although the present invention will be described using and focusing on it, it is obvious that the present invention is not limited thereto.

The collected waste glass is primarily pulverized using a roller mill or crusher, and then secondly pulverized to a desired size using a ball mill, a pan mill, or the like. Although the size of the primary coarsely ground waste glass is not limited, a size suitable for use in ball mills, pan mills, and the like used in the second milling is preferable. The particle size of the secondary pulverized product is generally determined according to the particle size of the ceramic substrate, and is preferably adjusted to have a size of 60 to 650 mesh, more preferably 120 to 325 mesh.

If the particle size of the waste glass fine powder is less than 650 mesh, there is no difficulty in achieving the object of the present invention, but it is economically disadvantageous because additional efforts are required for fine grinding.

Even when the particle size of the waste glass fine powder is 120 mesh or more, it is not difficult to achieve the object of the present invention, but it is difficult to mix with the raw material material, and the effect of lowering the firing temperature is reduced.

Waste glass powder larger than the particle size may be combined with the raw material ingredients and then ground and mixed.

The appropriate particle size of the waste glass fine powder is advantageously similar to that of the base to be blended, and thus, the waste glass fine powder may be selected and used.

Various blends of ceramic products are molded, dried, and calcined using the base blend comprising the waste glass fine powder thus prepared. In some cases, you can roast two.

In general, the firing temperature of ceramic products varies somewhat depending on the type of product, but generally 1,100 to 1,200 ° C for pottery, 1200 to 1300 ° C for roasting and bulbeul for porcelain, 1250 ° C for building tiles, and In the case of hard porcelain, it is 600-800 degreeC (first roasting) and 1350-1450 degreeC (two roasting), and in the case of soft magnetism, 1250-1300 degreeC (first roasting) and 900-1100 degreeC (two roasting).

The inventors have also found that, surprisingly, when producing ceramic products such as artificial stone using the body composition according to the present invention, the firing temperature of artificial stone reaching 1100-1300 ° C. can be lowered to 1000-1,100 ° C. .

This phenomenon is similar to the effect of reducing the energy required by lowering the processing temperature when adding cullet as a glass making material in the glass industry, but when adding the same cullet in the production of amorphous glass It is surprising that the effect of lowering the processing temperature is the effect of lowering the processing temperature by adding glass powder even when firing artificial stone having the same raw material as glass but having different physical properties. The energy saving effect due to the lowering of the firing temperature is another excellent effect not predicted in the present invention.

Below, it describes about using the ceramic base material composition containing the waste glass fine powder of this invention for manufacture of artificial stone.

Basic base material for the production of artificial stone according to the present invention is not significantly different from the base material used for the production of other ceramics, such as ceramics. Therefore, kaolin, clay, and clay, which are frequently used as raw materials for ceramics, are mainly used as basic raw materials for the production of grinding balls for mills. Mixed raw materials are also commercially available, which are suitable for the manufacture of special or specific types of ceramics, and these may be mixed and used.

The proportion of such a raw material is not particularly limited, and in general, can be easily determined by those skilled in the art, and usually does not differ significantly from that of the manufacture of other ceramics.

A raw material blend was prepared by mixing the waste glass fine powder (particle size of about 325 mesh) according to the present invention with the raw material for manufacturing the artificial stone ceramics in an amount of about 20 to 40% by weight.

When the artificial stone is manufactured according to the existing ceramic product manufacturing method using the prepared formulations, it was confirmed through experiments that cracking is prevented and plastic strength is increased during molding and drying.

The molded and dried artificial stone is calcined at a low temperature of 1000 to 1,100 ° C., but may be molded at a higher temperature for the composition of the used base material and / or the desired strength and further processing.

Artificial stone prepared by using the blend according to the present invention exhibited an excellent appearance such that there is almost no difference in appearance compared to natural stone, and also excellent in physical properties such as strength, and easily in various shapes and sizes as necessary. Can be manufactured. As well as. Artificial stone according to the present invention is also lighter than ordinary stone, it can be used as a lightweight stone excellently. For example, the artificial stone according to the present invention can be used as a plate by making a thin thickness.

In addition, the artificial stone according to the present invention shows a number of excellent advantages, these advantages can be easily deduced from the present specification.

The following examples illustrate the invention without limiting it, the percentages used herein are all based on weight.

Examples 1-3

Waste glass mainly composed of automotive glass is crushed to a size of 1 cm or less with a coarse grinding machine of roller type, which is finely pulverized with a ball mill, and sorted by a sorter to obtain 125 to 325 mesh waste glass powder.

To prepare the artificial stone material blended with about 30% clay, about 50% kaoline, and about 20% other ingredients, the waste glass powder obtained above was added in the amounts shown in the following table to prepare a blend. It was.

It was molded into a rod or rod of 5 cm in diameter and 20 cm in length in a molding machine and dried at room temperature. The dried unbaked artificial stone was calcined at the temperature shown in Table 1 below.

TABLE 1

Example 4

The waste glass fine powder ground to a particle size of 125 to 325 mesh was added to the base for producing a tile in an amount of 15% by weight and kneaded. In the same manner as in Example 1, artificial stone was manufactured by molding, drying, and firing in a tile shape.

The manufactured tile-like artificial stone gives the same texture and strength as the tile made of marble, and is much lighter, which can greatly reduce the load on the roof. .

Example 5

Glaze was applied to the artificial rod-shaped stone manufactured and dried in Example 2 and calcined at the same temperature to prepare an artificial stone having a beautiful appearance. The artificial stone produced showed better strength and was resistant to contamination.

Example 6

The same base material blend as used in Example 1 was molded into a plate having a width of 20 cm x 20 cm and a thickness of M cm, dried and fired to prepare a plate. The manufactured plate material was not only light in weight and exhibiting better strength, but also stains such as ink were well removed.

According to the present invention, artificial stone having excellent physical properties and appearance can be easily and inexpensively manufactured in various shapes and sizes, if necessary, from a ceramic base material containing waste glass fine powder, Since the blend contains fine powder of waste glass, it is possible to prevent environmental pollution due to waste glass treatment, to manufacture various ceramic products easily and economically without substantial deterioration of physical properties, and to save energy by lowering the firing temperature. Gave.

Claims (5)

A method for producing an artificial stone by pulverizing waste glass with a particle size of 60 to 650 mesh, blending it with a ceramic base, and molding, drying and firing the obtained base mixture. A method according to claim 1, characterized in that the particle size of the waste glass fine powder is 120 to 325 mesh. The method of claim 1 further comprising the step of coloring and / or glazing. An artificial stone produced by pulverizing waste glass with a particle size of 60 to 650 mesh, blending it with a ceramic base, and molding, drying and firing the obtained base mixture. The artificial stone according to claim 4, which is in the form of a plate.