KR20030064343A - Cement terazo composite materials using the high strength cement grout materials - Google Patents

Abstract

PURPOSE: A thin film-type cement terrazzo composition using a cement grout material of high strength is provided, which has excellent abrasion strength and flame resistance, generates no cracking and can be produced into the shape of a thin film. CONSTITUTION: The thin film-type cement terrazzo composition comprises about 35-55 parts by weight of common Portland cement; about 0.5-3.0 parts by weight of a naphthalene sulfonate-based superplasticizer for reducing the amount of water; about 3-8 parts by weight of silica fume for improving the strength; about 5-15 parts by weight of a cement swelling agent for preventing the cracking and deformation; and 45-70 parts by weight of dolomite-based material.

Description

Cement terazo composite materials using the high strength cement grout materials}

The present invention relates to the production of slip casting type or hydraulic press type cement terrazzo using high strength cement grout material, which is free of abrasion resistance, high strength, and shrinkage due to shrinkage. Terrazzo has been used for floor finishing for a long time. Because of its robustness, beauty, and ease of management, it is no exaggeration to say that it has been almost standardly installed in commercial and large-scale buildings. Like other building materials, these terrazzos have developed their technology, and the improvement of materials has also been clearly changed. The terrazzo has also been developed extensively in the method of mixing raw materials and construction, and the technology is sufficient to satisfy both beauty and use. In today's development, the scope of its use is also greatly expanded. In general, Terrajo has been divided into the following:

1. General thin terrazzo: Terrazzo with oxychloride composition in the most widely used method for the longest time.

2. Integral terrazzo (monolitic terrazzo): A method of forming terrazzo with a thickness of about 15.6 millimeters on an uncured concrete floor.

3. Unlike the one-piece, it is almost similar to the one-piece method by using a chemical adhesive to form a thin terrazzo about 15.6 millimeters thick on the fully hardened concrete surface and perfect adhesion to the concrete surface.

4. A method of using emulsions to give high tensile and flexibility in place of chemical adhesives on hardened concrete surfaces.

5. The terrazzo, which is completely different from the terrazzo, using synthetic resin or polymer as a sphere on the hardened concrete surface.

Among the terazzo methods, the terazzo is currently mainly used as a molded product, and most of the thin-film type (less than 20 millimeters) terazzo use polymer resin. However, in order to prevent the revision of the firefighting evacuation law of buildings and the emission of toxic gases during a fire, terrazzo, which is composed of mineral fire and flame retardant materials, has recently been required. At this time, the inorganic cement terrazzo is used, but the production of thin film terrazzo is difficult for the characteristics of cement. Cement is generally hardened by water, but when hardened, cracking occurs due to shrinkage caused by drying of excess water. The crack generated at this time is a fatal defect in the terrazzo as a plaster finish. In order to prevent such cracks caused by dry shrinkage, a hydraulic press method is introduced, but due to the breakage rate during manufacturing, it is not used as a thin film terrazzo but is used as a thick film terrazzo of 27 mm or more. Korean Patent Laid-Open Publication No. 1998-0009698 does not use a polymer resin, but wet polishing after placing it in a place where a compounded material is to be used. There is a problem in that it is selected, Republic of Korea Patent Publication No. 1997-0015514 also uses a back cement in the cement, but also to use wet polishing at the site of use. This artificial stone site change (aka axdashi) is prescribed by materials and construction methods that have not been used for several years because of environmental pollution on construction sites.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to prevent the use of high fluidity materials and shrinkage cracks for reducing the general cement cement, water cement ratio as the main material A thin-film cement terrazzo that mixes a composition consisting of the use of a cement expander with a known subordinate, and is molded by a hydraulic molding method and a slip casting method, cured, and then subjected to wet polishing to exhibit wear resistance, high strength, no cracking, and high gloss. It is about the manufacture of jaws.

The present invention for achieving the above object is about 35 to 55 parts by weight of ordinary ordinary Portland cement and about 0.5 to 3.0 parts by weight of naphthalene-sulfonate-based high fluidizing agent to reduce the use of water, silica fume to exhibit high strength 3 to 8 parts by weight, and about 5 to 15 parts by weight of cement expander, and 45 to 70 parts by weight of the casing. Hereinafter, specific embodiments of the present invention will be described by way of example, and the scope of the present invention is not limited by the embodiments described below.

Example 1

In Example 1, when a compounding amount of 1000 kg is blended, 400 kg of cement, 10 kg of naphthalene-sulfonate-based high softening agent, 50 kg of silica fume for high strength, and 60 kg of cement expander and 480 kg of dolomite-based submerged The amount is evenly mixed with a vibrator after mixing 150 kg evenly. Let enough curing in the atmosphere that the compaction is completed. After curing in air for about 2 to 3 days, the mold is demolded in a container and wet-polished with a polishing machine to polish the surface.

Example 2

In Example 2, when a compounding amount of 1000 kg is blended, 450 kg of cement, 12 kg of naphthalene-sulfonate-based high softening agent, 60 kg of silica fume for high strength, 70 kg of cement expander, 408 kg of dolomite-based submerged water, Mix 130 kg evenly and put into container to compact evenly with vibrator. After the compaction is completed, it is molded in a hydraulic press in the air and sufficiently cured. After curing in air for about 2 to 3 days, the mold is demolded in a container and wet-polished with a polishing machine to polish the surface.

In order to verify the effect of the terrazzo of the present invention as described above, tests were performed for each example. Herein, the size of the specimens prepared for each example was 400 × 400 × 18 (unit: millimeter), and the test method was KS F 4739-1999. Table 1 shows the test results.

The cement terrazzo of the present invention can be seen that there is no difference at all compared to the physical properties of the general resin-based terrazzo and thick-film cement terrazzo. In the case of general cement terrazzo, the surface crack, distortion, and deformation are caused by dry shrinkage of cement. Therefore, the thin film terrazzo of 20 mm or less cannot be manufactured. However, cement terrazzo of the present invention reduces the amount of water by dry shrinkage. By reducing, preventing cracks due to shrinkage, and expressing high strength, there is no crack, distortion or deformation due to dry shrinkage even in a 20 mm thick molded article unlike general cement terrazzo.

TABLE 1

Claims (4)

Usually about 35 to 55 parts by weight of Portland cement and about 0.5 to 3.0 parts by weight of naphthalene-sulfonate-based high softening agent to reduce the use of water, about 3 to 8 parts by weight of silica fume for high strength, and about about cement expander 5 to 15 parts by weight of the thin film type high strength cement terrazzo composition of 20 mm or less, characterized in that the blending of 45 to 70 parts by weight The method of claim 1, Cement terrazzo composition characterized by the use of a cement water reducing agent or a high fluidizing agent to reduce the use of water The method of claim 1, Cement terrazzo composition characterized by using silica fume to exhibit high strength The method of claim 1, Cement terrazzo composition, characterized in that the use of cement-based expander to prevent cracking and deformation