KR20050055654A - A composite of polymer cement mortar with anti-water property and durability as a concrete surface finishing material - Google Patents

Abstract

The present invention relates to a polymer cement mortar composition that can be coated on the surface of the concrete to enhance the durability of the concrete by strengthening the water resistance, permeability, etc. The present invention relates to a polymer cement mortar composition having a crack self-healing function, in which a polymer is added to a cement mortar which is easily penetrated by nitrous acid gas or carbon dioxide, thereby reducing the penetration thereof and self-healing the cracks generated in the mother. It is a composite material that combines the advantages of mortar compressive strength and economics, and the advantages of fatty acid salt-based organic compounds and polymers that can be recrystallized by reacting with cement compounds. As a finished surface finish In addition to being used for the repair and repair of aged and deteriorated concrete, due to the self-healing properties of cracks in spheres, which are the greatest characteristics of the present invention, various types of cement mortars and concrete structures and exteriors of various buildings and Can be used for interior finishing.

Description

A composite of polymer cement mortar with anti-water property and durability as a concrete surface finishing material}

The present invention relates to a polymer cement mortar composition that can be used in the re-modeling method of buildings, and more specifically, to the properties of re-emulsified dispersing resin or polymer emulsion, the waterproofing performance by organic compounds, the strength characteristics of cement mortar The present invention relates to a polymer cement mortar composition having excellent adhesion strength, excellent durability by waterproofing and permeability resistance by self-healing function of cracks generated in a sphere, and easy construction.

Concrete hardly cracks during the hardening process, which facilitates the penetration of water or various salts harmful to concrete, such as nitrites and sulfites in the air, and harmful salts or water that have penetrated into the concrete. Due to the neutralization of concrete, the building quickly deteriorates. In addition, plaster tiles for interior and exterior of buildings are often dropped due to deterioration due to the neutralization of concrete, and even if not dropped, they are present in severe contamination.

Generally, about 20 years after the construction of these buildings, these buildings are not functioning properly due to the deterioration of the durability of concrete.However, it is economically and environmentally effective to remove all of them and build new ones. This is impossible from the perspective.

As a method to restore the performance of the building again, a variety of re-modeling materials are used to enhance the performance. Particularly, in view of the cement material, the cement material is based on the cement material. The use of composite materials is gradually expanding. Cement material is a very good material in terms of economical and high strength material, but various disadvantages have been exposed due to the weakness of porosity. In order to make up for the weakness of the cement-based materials, polymer cement mortars having organic functions in the cement-based materials are being used as re-modeling materials for buildings, and some of them have already been applied to such re-modeling methods from new buildings.

Polymer cement mortar is a material that has a complex function of organic and inorganic materials and replaces other finishing materials with various methods and finishes. However, since cement materials are basically used, it is possible to prevent the occurrence of cracks, which are characteristics of cement materials. There is no proper measure for the leakage of water and the penetration of harmful ions, but in countries where the four seasons are obvious, the long-term durability problem appears due to the deterioration of waterproofing performance due to repeated heating and cooling and the lack of penetration resistance of harmful ions. have.

As for the polymer mortar composite, in Korean Patent Laid-Open Publication No. 2000-0000485, a polymer mortar is prepared by using an unsaturated polyester mortar resin as a binder and curing at 20 ° C. due to the use of an unsaturated polyester resin. Curing at room temperature is difficult, and inconvenient application and construction in various forms in a general building, there is a disadvantage that the scope is limited to molded products only. In addition, Korean Patent Application Laid-Open No. 2001-0046911 proposes a method for mixing a mortar by installing a removable diaphragm at the center in the manufacture of a polymer mortar and a cement mortar composite and then removing the diaphragm before the mortar is cured. There is a problem that cannot be used.

In addition, re-modeling requires the removal of previously used materials, but considering that previously used materials may not be completely removed, it is necessary to overwrite the surfaces of the previously used materials. It should be excellent in affinity with, ie, adhesion. However, if the existing materials were constructed with tiles, but some of them fell apart, there is a problem in that they cannot be constructed in the same way, and after re-installing the tiles after removing the entire tile, there are problems such as economic and construction period. In addition to the tiles, when the construction finish with epoxy resin, urethane resin, etc., there is also a problem in that it is difficult to partially reinforce.

In addition, Korean Patent Laid-Open No. 2004-0087002, filed by the inventor of the present invention and another co-inventor, uses a polymer cement mortar for repair and finishing materials in buildings using cement-based materials and reemulsified dispersion polymers in manufacturing polymer cement mortars. Although there is no mention of cracks that can occur after the use of these materials, there is no problem in preventing leakage or infiltration of harmful ions due to the occurrence of cracks.

Therefore, the present invention has been made to solve the problems of the prior art as described above, can be used irrespective of construction equipment or construction site, leaks due to water infiltration or harmful ions through cracks generated after using the material In order to prevent deterioration due to the infiltration of cracks, it developed a polymer cement mortar that prevents water leakage or infiltration of harmful ions by infiltrating the cracks and imparting waterproofing properties by self-healing cracks. .

The present invention can be used as a finishing material on the concrete surface during the new construction with redispersible polymer and cement having excellent affinity with concrete, and the existing tiles, epoxy resin finish, urethane resin finish, other resin mortar, etc. When the water is penetrated through the crack after the mortar is cured, new crystals are generated in the pores inside the polymer cement mortar by reaction with organic compounds in the polymer cement mortar according to the present invention. By filling the pores, the cracks heal themselves to enhance waterproofing and prevent the penetration of harmful salts.

The present invention for achieving the above object is 30 to 60 parts by weight of white cement, 30 to 50 parts by weight of selected silica sand, 10 to 20 parts by weight of selected calcium carbonate, redispersible polymer of ethylene vinyl acetate-vinyl vasate copolymer series Or 2 to 6 parts by weight of a polyacrylic redispersible polymer, 0.2 to 0.6 parts by weight of a silicone antifoaming agent, 0.05 to 0.2 parts by weight of cellulose salt, and 0.5 to 1.0 parts by weight of a fluidizing agent based on melamine-formaldehyde sulfate condensate , 0.06 to 0.12 parts by weight of silicate magnesium, 0.1 to 0.2 parts by weight of fatty acid salt is characterized in that the mixture.

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

Examples include 1000 g of white cement, 1000 g of selected white sand, 200 g of selected calcium carbonate, 25 g of redispersible polymer based on ethylene vinyl acetate-vinyl vasate copolymer, 25 g of polyacrylic redispersible polymer, 4 g of silicone antifoam, and cellulose 0.5 g of os salt, 20 g of melamine-formaldehyde sulfate condensate as a main ingredient, dry dry 0.6 g of magnesium silicate, 2 g of sodium oleate with fatty acid salt, and then 400 g of water, followed by 1 minute rotation Stir slowly at 20 for 5 minutes. In addition, in order to compare the characteristics of the present invention, 1000 g of white cement, 1000 g of selected white sand sand, 200 g of selected calcium carbonate, 25 g of redispersible polymer based on ethylene vinyl acetate-vinyl vasate copolymer, 25 g of polyacrylic redispersible polymer, 4 g of silicone-based antifoam, 0.5 g of cellulose salt, and 20 g of a fluidizing agent based on naphthalene-formaldehyde sulfate condensate were completely mixed dry, and then 400 g of water was added thereto and stirred slowly at 20 revolutions per minute for 5 minutes. It was.

The physical properties were measured to confirm the properties of the present invention as described above, and compared the properties of polymer cement mortars of different formulations according to Korean Patent Application Publication No. 2004-0087002, filed by the present inventors, to determine the waterproofing performance and the penetration of harmful ions. It was.

As a result of measuring the physical properties of the polymer cement mortar, the physical properties according to the present invention compared to the porosity and the permeability coefficient of the comparative product was confirmed that the waterproof performance and the permeation blocking ability of harmful ions of the polymer cement mortar of the present invention are very excellent. Could.

In addition, the hydration state of the polymer cement mortar according to the present invention is shown in Figure 1, 2, 3, 4. From the results of the figure, it can be seen that the hydrate of the present invention has a markedly small void due to the formation of acicular crystals. In addition, in Fig. 5, needle-like crystals of calcium silicate hydrate were formed as electron micrographs of ordinary cements, and it can be seen that many ultimates exist.

Claims (3)

30 to 60 parts by weight of white cement, 30 to 50 parts by weight of selected silica sand, 10 to 20 parts by weight of selected calcium carbonate, redispersible polymer based on ethylene vinyl acetate-vinyl vasatate copolymer or polyacrylic redispersible polymer 2 to 6 Parts by weight, 0.2 to 0.6 parts by weight of a silicone antifoaming agent, 0.05 to 0.2 parts by weight of cellulose salt, 0.5 to 1.0 parts by weight of a fluidizing agent based on melamine-formaldehyde sulfate condensate, 0.06 to 0.12 parts by weight of magnesium silicate, Polymer cement mortar composition, characterized in that 0.1 to 0.2 parts by weight of fatty acid salt is mixed. The method of claim 1, Fatty acid salts use sodium oleate or sodium fumarate and calcium stearate. The method of claim 1, Magnesium silicate is used as a material to form crystals for preventing the penetration of water or harmful ions into pores inside the polymer cement mortar.