KR790000928B1 - Method for manufacturing of building materials from clay - Google Patents

Abstract

A method for manufg. building materials having stone like characteristics by mixing clay, cement and special fluids was described. Cement was added to clay to give A. 200g ammonium chloride, 100g anhydrous sodium carbonate, 400g salt, 250g potassium chloride and 50g magnesium chloride were dissolved in 1,800el water and 180el Na2Si3O7 to give B. The title materials were manufd. by mixing A and B with a suitable amount of water.

Description

Preparation of soil stone

The invention of the present application is because the strength of the product is higher and more dense than the conventional products of the same type of product because it adds special chemicals in the manufacture of concrete by mixing cement with clay which can be commonly obtained all over Korea. It is about the manufacturing method of the soil stone to be able to get.

Conventionally, in the case of cement softening or manufacturing a block, in order to obtain high strength of the product, the mixing ratio of cement and sand is 1: 5 or less in the case of sand, and the mixing ratio is 1: 7 or less in the case of using royal sand. It should be. However, in recent years, as construction of concrete products or their constructions is actively underway, the demand for concrete is rapidly increasing, which leads to exhaustion of royal dust collected in limited rivers, and it is difficult to collect quality sand gradually. .

And most of the production cost in making concrete products is due to the cost of cement. To reduce this, Misato, which is similar to Wangsa, is used instead of Wangsa, and Masato contains about 5% of soil. When the concrete product using the concrete is damaged by the coagulation force, the construction or the construction of the constructed building is often collapsed, and the Ministry of Construction prohibits the manufacture of cement formulations containing Masato.

The present inventors have completed the present invention by performing a lot of tests to make concrete products by mixing cement with high-quality clay that can be obtained all over Korea in making concrete products in view of the circumstances as exhibited. The details are as follows.

The clay used in the present invention may use mud or mud flat soil, but if the clay contains a vegetable or is artificially contaminated, the mechanical strength of the product may be deteriorated. .

EXAMPLE

1st process: The manufacturing method of the special composition liquid of this invention.

Solution A: 200 g of ammonium chloride, 100 g of anhydrous sodium carbonate, 400 g of salt, 250 g of potassium chloride, and 50 g of magnesium chloride are dissolved in 1,800 ml of water to obtain A solution.

Solution B: While stirring the solution A, add 180 ml of aqueous solution of sodium trisilicate (40% or more) to make solution B.

After making B solution for more than 3 hours, its effect is reduced, so it should be made just before use.

Second step: Add 40 kg of cement to 250 kg of clay selected with less than 10 mesh, mix by dry mixing, add about 30 L of B solution and appropriate amount of water, and mix well. To prepare.

In the above embodiment, instead of clay, it is possible to use masato containing a considerable amount of soil in which granite is corroded and deposited. In this case, the amount of cement and the composition of the present invention may be reduced.

The mechanical strength and physical properties of the products of the present invention are superior to any conventional concrete products due to the mixing of clay and cement in the preparation of the soil stone of the present invention. It is believed to be caused by the same reason.

In aqueous A solution, the following chemical reactions occur.

NH ₄ Cl + Na ₂ CO ₃ + H ₂ O = NH ₄ OH + NaHCO ₃ + NaCl... … … … … … … … ①

Magnesium chloride may react with sodium carbonate in an aqueous solution to precipitate magnesium carbonate, and may be combined with ammonia water to cause magnesium hydroxide to precipitate. It is not precipitated by buffering. However, in the solution A, a large amount of ammonium chloride may be left even after the reaction of ①, and extremely small amount of precipitation of magnesium carbonate and magnesium hydroxide is produced.

However, when tertiary sodium silicate is added to solution A, the excess ammonium chloride and tertiary sodium silicate in solution A cause the following chemical reaction to produce a large amount of colloidal hydrous silicic acid. Therefore, magnesium chloride mainly combines with ammonia to form colloidal magnesium hydroxide precipitates.

Na ₂ Si ₃ O ₇ + 2NH ₄ Cl + 3 x H ₂ O = 2 NaCl + 3 SiO ₂ x H ₂ O + 2NH ₄ OH. … … ②

MgCl ₂ + 2NH ₄ OH = 2NH ₄ Cl + Mg (OH) ₂ . … … … … … … … … … … … ③

As described above, the liquid B contains a large amount of colloidal silicic acid and colloidal magnesium hydroxide, and the newly exhibited clad phase compound produced by the chemical reaction has good activity, so aluminum silicate, iron oxide and cement contained in the soil are good. CaO, SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ and the like contained in the water are caused by binding to each other in the presence of water to form a complex silicate to turn into a solid material such as rock. Oda, potassium chloride, sodium bicarbonate and the like promote the exhibited reaction and lower the freezing point of concrete, so the cement block or brick of the present invention does not freeze even if manufactured in winter.

The present invention relates to a method for producing a concrete product having good mechanical strength or physical properties using clay which is commonly obtained anywhere in our country.

Claims (1)

As mentioned above, in a mixture of cement and clay, 200 g of ammonium chloride, 180 g of anhydrous sodium carbonate, 400 g of salt, 250 g of potassium chloride, and 50 g of magnesium chloride were dissolved in 1,800 ml of water. Preparation of soil stone, characterized in that by the known method is added to the mixed B liquid and an appropriate amount of water