KR20050116116A - A composite of cement mortar with insulation and water proofing properties - Google Patents

Abstract

The present invention relates to a waterproof cement mortar with excellent thermal insulation performance, 30-50 parts by weight of cement, 15-25 parts by weight of silica sand (60-100 mesh), the diameter of the beads (30 micrometers to 90 micrometers) 15-25 parts by weight of glass beads in the range, ethylene vinyl acetate, a remulsifying powder polymer resin, and a remulsifying powder of butyl acrylate and styrene copolymer, also a remulsifying polymer, in a weight ratio of 2-5: 1. 2-5 parts by weight of the resin composition mixed at a ratio of -3, 2.5-5.0 parts by weight of a silofluoride compound, and 1.0-5.0 parts by weight of a powder additive reacting with cement hydrate in the cement to produce organic crystals of 1 micrometer or less. And, an additive such as a conventional antifoaming agent, thickener, dispersant is added within 3 parts by weight, the finishing cement mortar of the present invention is equivalent to the conventional waterproof and heat insulation mortar Exercise levels over waterproofing and insulation at the same time and has an excellent effect of preventing the thermal performance and water degradation due to cracks that occur with respect to the common cracks occurring in cement self-represented functional effect of healing after use of cement materials.

Description

A composite of cement mortar with insulation and water proofing properties

The present invention relates to a waterproof cement mortar composition having excellent heat insulating performance, and more particularly, to a heat insulating waterproof cement mortar composition having a heat insulating performance, a waterproof performance, and a self-healing function against cracks occurring in cement materials.

In general, the waterproofing method of the building is liquid waterproofing by mixing the waterproofing liquid with cement and sand, sheet waterproofing using various synthetic polymers, waterproofing the coating film, infiltration waterproofing which dilutes the surface of the structure by diluting the silane-based compound and shows water repellent performance. It is roughly divided into. Among them, sheet waterproofing and coating film waterproofing, which are most commonly used in building rooftop slabs, are materials used in a natural building due to the ease of use and the like, and are the materials for which the most technology has been developed.

Roof waterproofing of buildings is usually classified into exposed and non-exposed types, and in Korea, non-exposed waterproofing is applied to use the rooftop space. The most widely applied to these non-exposure methods are sheet waterproofing and coating waterproofing.

The non-exposure waterproofing method constructs various kinds of sheet waterproofing layers on the concrete surface, which is the base surface, and again, a coating waterproofing layer on the sheet waterproofing layer, and lays general concrete to protect the coating waterproofing layer on the coating waterproofing layer. For better understanding, Figure 1 shows a picture of an existing non-exposed waterproof system.

In the related art and patents related to waterproofing the coating film for this purpose, Korean Patent No. 0476063 discloses a coating film waterproofing agent using bisphenol, ethylene vinyl acetate, and other chemical materials for use in the basement or rooftop of a concrete building. , Korean Unexamined Patent Publication No. 2005-0056306 discloses a partially insulating non-exposure waterproof method using a ceramic thermoplastic resin-based asphalt coating waterproofing agent. In addition, Korean Laid-Open Patent Publication No. 10-2004-0067060 discloses a heat-insulating waterproof mortar composed of cement silica sand, magnesium stearate, EVA, senosphere, and the like.

These conventional techniques are relatively stable in waterproof performance can be used in a variety of buildings, such as basement, rooftop. However, these conventional techniques are all waterproof systems composed mainly of the waterproof sheet and the film waterproofing agent installed on the base layer, there is a disadvantage in that the protective concrete must be poured over the coating waterproofing agent to protect the waterproof sheet and the film waterproofing agent.

In addition, due to the difference in thermal expansion coefficient between concrete and waterproof sheet, the air pocket is formed between the base layer and the waterproof sheet just above the ground layer due to heat transfer when the surface temperature rises due to sunlight. Condensation occurs in the air pocket, and the waterproof sheet installed on the base layer is damaged due to repeated expansion and contraction due to heat, thereby deteriorating the waterproof performance.

These defects occur between the coating waterproof layer and the protective concrete installed on the waterproof sheet, and ultimately, a waterproof fault occurs due to destruction of the roof waterproof layer.

Therefore, the present invention has been made to solve the problems of the prior art as described above, an object of the present invention to provide a composition of waterproof cement mortar for integrating the protective concrete layer for protecting the coating waterproof layer and the coating waterproof layer of Figure 1 At the same time, the thermal expansion shrinkage between the base layer and the waterproof sheet at the bottom is minimized to prevent the formation of air pockets and to prevent condensation, thereby adding insulation to protect the waterproof sheet at the bottom. By providing a self-healing function, it is to provide a crack self-healing insulation waterproof cement mortar exhibiting continuous insulation and waterproof performance.

The purpose of the present invention and the purpose of achieving the existing non-exposed waterproof method is briefly shown in Figure 2.

That is, to provide a cement mortar for thermal insulation waterproof performance that can integrate the two stages of the existing waterproof film layer and the protective concrete layer to protect it with cement mortar of waterproof performance and thermal insulation performance.

The present invention for achieving the above object is 30-25 parts by weight of cement, 15-25 parts by weight of silica sand (60-100 mesh), glass beads 15-25 in the range of 30 micrometers to 90 micrometers in diameter 2 parts by weight of ethylene vinyl acetate, a reemulsifying powder polymer resin, and a reemulsifying powder of butyl acrylate, which is also a reemulsifying polymer, and a styrene copolymer, in a ratio of 2-5: 1-3 by weight. Parts by weight, 2.5-5.0 parts by weight of a silofluoride compound, 1.0-5.0 parts by weight of a powder additive which reacts with cement hydrate in the cement to produce organic crystals of 1 micrometer or less, and additives such as conventional antifoaming agents, thickeners and dispersants It is characterized in that added within 3 parts by weight.

Hereinafter, the present invention will be described in detail.

Cement, silica sand, re-emulsified powder polymer, and the like are known materials widely used as a general waterproofing material. In addition, the waterproof function of the fluorinated salt is published in several journals, and is a constituent material of the present invention, not an essential patent technology of the present invention. In the present invention, in addition to such a known waterproof material, a combination of a powder additive that reacts with cement hydrate in the cement to produce an organic crystal of less than 1 micrometer and glass beads of waterproof and thermal insulation performance, such as excellent thermal insulation and waterproof It is what constitutes a cement mortar.

Powder additives, which react with cement hydrates in the cement to produce organic crystals of less than 1 micrometer, are manufactured by a Canadian company and are used as concrete admixtures with a combination of fatty acids and organic acids. In the present invention, the ratio of the organic crystal produced in the cement and the reemulsified powder of ethylene vinyl acetate, which is a reemulsified powder polymer resin, and the butyl acrylate and styrene copolymer, which is also a remulsified polymer, is produced using the conventional Canadian powdered admixture. It provides waterproofness by forming the film inside the cement by the resin composition mixed in the ratio of 2-5: 1-3 by weight ratio, and for self-healing of cracks generated in the cement material by forming organic crystals by these Canadian powder additives. Used as a material.

After the cement is hardened, the water penetrates through the gel pores existing in the cracked portion of the cement hardened body or the cement hardened body, which causes the hardened cement to leak.

However, the waterproofing performance according to the present invention is to give the healing and waterproofing of the cracks by generating the crystal of the organic fatty acid salt in the cracked portion of the cement hardened body and the inside of the gel pores.

In addition, the glass beads are silica (SiO _2), as well as the effect to the kind of aggregate role inside this waterproofing cement mortar to improve the bonding strength of the cement to densify the cement tissue to reduce the water penetration diffusion eluted from the glass is hydroxide in the cement Reacts with calcium to produce calcium silicate hydrate (CSH) of less than 1 micrometer inside the gel-pore of the hardened cement, showing water-resistance. It will have to form a heat insulating layer.

The glass bead of the present invention may be generated by the air layer or condensation that may occur between the adhesive sheet and the base surface according to the thermal expansion difference by protecting the sheet bonded to the base surface in the non-exposure waterproofing method shown in Fig. 1 by forming an insulating layer. By preventing the occurrence of the moisture layer can prevent the peeling, falling off of the sheet waterproof layer installed on the base surface can maintain the waterproof performance for a long time.

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, a compounding amount of the insulating heat-resistant finish mortar 1000kg of the present invention is blended, 440 kg of cement. 220 kg of silica sand, 220 kg of glass beads ranging from 30 micrometers to 90 micrometers in diameter, reemulsified powder of ethylene vinyl acetate, a remulsifying powder polymer resin, and butyl acrylate and styrene copolymer, also a remulsifying polymer 30 kg of the resin composition mixed in a ratio of 2-5: 1-3 in weight ratio, 30 kg of magnesium silicate, which is a silicon fluoride compound, 30 kg of a powder additive for forming an organic crystal, 10 kg of a conventional silicone antifoaming agent and methyl cellulose 10 kg of loose and 10 kg of melamine-based dispersant are mixed to prepare the present invention.

In order to test the waterproof cement mortar of the present invention according to the above embodiment, 30 kg of water was mixed with respect to 100 kg of the total waterproof cement mortar. In order to compare the properties, commercially available waterproofing agents composed of acrylic emulsion, cement and silica sand were used.

The results of comparing the physical properties are shown in Table 1 below.

Table 1

As confirmed in the above embodiment, the cement mortar composition for thermal insulation and waterproof finish according to the present invention exhibits excellent thermal insulation and waterproofness (absorption rate) compared to various cement mortars having various thermal insulation and waterproof performances. It can be used for cement mortar and various applications.

Claims (2)

30-50 parts by weight of cement, 15-25 parts by weight of silica sand (60-100 mesh), 15-25 parts by weight of glass beads with diameters of beads ranging from 30 micrometers to 90 micrometers, ash oil 2-5 parts by weight of a resin composition in which the ratio of ethylene vinyl acetate, which is a powdered powder polymer resin, and re-emulsified powder of butyl acrylate, which is also a remulsifying polymer, and a styrene copolymer, is mixed in a ratio of 2-5: 1-3 by weight. 2.5-5.0 parts by weight of the flame compound, 1.0-5.0 parts by weight of a powder additive which reacts with cement hydrate in the cement to produce organic crystals of 1 micrometer or less, and 3 parts by weight of an additive such as a conventional antifoaming agent, a thickener, and a dispersant. Insulation and waterproof finish cement mortar composition, characterized in that the addition The method of claim 1, Insulating and waterproof finishing cement mortar composition, characterized in that the glass bead (glass bead) is used to give the finishing cement mortar waterproof and insulation performance