KR20010106813A - Poromeric and repellent floor finishing method of concrete surface for improvement of durability or renewal - Google Patents

Abstract

The present invention penetrates the surface of the floor based on the secondary products such as cement-based concrete or PC (precast concrete, factory-made concrete) plate, and can improve or recover durability by exerting breathability and water repellency The present invention relates to a step of forming a breathable water repellent floor finishing method for improving durability and rehabilitation of a concrete base. The method includes forming a primer layer (4) containing lithium silicate as a main component on a concrete base, Forming the base reinforcing layer (6) to improve the mechanical performance, coloring with an acrylic ester copolymer having a solid content of 40 to 50%, an aqueous solution of lithium silicate and an inorganic pigment, and additives such as other surfactants each addition of a small amount of a water-based inorganic floor finishing material in an amount of about 0.15~0.3g / m ^{2 2} once applied to Finishing coating adapted to place the top coat material to a step of forming a first layer 8, and a main component is a lithium silicate aqueous solution to the step of applying the top coat to form a second layer 10 so 0.05~0.3g / m ^2, characterized in There is this.

Description

Breathable water-repellent floor finishing method for improving the durability and rehabilitation of concrete ground {POROMERIC AND REPELLENT FLOOR FINISHING METHOD OF CONCRETE SURFACE FOR IMPROVEMENT OF DURABILITY OR RENEWAL}

The present invention relates to a breathable water repellent floor finishing method for improving the durability and rehabilitation of concrete ground, and more specifically, based on secondary products such as concrete or PC (precast concrete) plate based on cement It relates to a breathable water repellent floor finishing method that penetrates the surface of the floor, exerts breathability and water repellency to improve and recover durability.

In general, construction structures, etc. are based on the secondary products such as cement-based reinforced concrete or PC boards, such as the foundation and assembly of formwork and reinforcing bars in the field or factory, and cement, gravel Aggregates, such as sand or sand, are mixed together and then mixed with water and other additives. Over time, the aggregates around the aggregates hydrate with water to form a solid cement paste layer. The strength that can support various loads exerted on is exerted.

In addition, due to the hydration reaction at this time, cement secondary products such as concrete or PC plates exhibit a strong alkalinity of about pH 12-13, and the strong alkalinity is applied to the surface of the reinforcing bar that mainly bears the tensile stress inserted into the concrete. It is known as a typical composite structure that forms a passivation film and prevents rusting for a long time.

However, in recent years, such concrete has been subjected to material factors such as excessive increase in alkali in cement due to the change of cement manufacturing method implemented as part of energy saving measures, and large use of sea ash due to depletion of good aggregate resources. Construction factors such as porous concrete of concrete structure by supplying ready-mixed concrete, which improves productivity and workability, and increase of CO ₂ concentration in air due to acid rain, rapid increase of automobile or factory, and prevention of freezing in winter Due to environmental factors such as the use of large amounts of calcium chloride for aging, premature aging such as alkali aggregate reactions, east seas, salt damage or neutralization (carbonation) occurs early, or excessive alkali components (e.g. calcium hydroxide or sodium sulfate) Surface contamination caused by EFFLORESCENCE phenomena reacting with water and condensation Defects such as rusting (rusting) of rebar due to alkaline disappearance of the litt, cracking in surface concrete due to the expansion pressure, and lifting or falling off due to the expansion pressure, resulting in lowering of structural strength and leakage It leads to a fatal flaw.

The interrelationship between concrete durability and defect occurrence according to the general theory is as follows. First, the rapid evaporation of water due to the heat of hydration that occurs during the hydration reaction of concrete that appears immediately after concrete placement, and the initial crack due to drying shrinkage. . This is usually not a defect that is directly related to the strength or leakage of the structure due to fine cracks, but in the long run, it creates a path through which CO ₂ gas or moisture in the air penetrates into the concrete and promotes neutralization of the concrete, thereby prematurely aging the concrete. Since it is the cause, it is necessary to take measures such as maintenance.

Next, it looks at defects such as natural aggregate cracking, salt damage, east sea or neutralization (carbonation) phenomenon, which are pointed out as a representative example of premature aging of concrete, such as natural expansion cracks and lifting or dropping of concrete surfaces.

Alkali Aggregate Reaction is an expandable gel (generally water glass gel), which is a gelatinous substance that is eluted by some kind of silica (SiO ₂ ) contained in aggregate by alkali (NaOH, KOH) supplied from cement. Crack) or pop-out as the gel expands and absorbs. The alkali aggregate reaction includes 1) Alkali-Silica Reaction, 2) Alkali-Carbonate Reaction, and 3) Alkali-Silicate Reaction. It is known that crack formation is the most common.

Salt salts are calcium chloride (CaCl ₂ ) or sodium chloride (NaCl) sprayed by the direct penetration of seawater near the coast, or the proportion of sea salt particles, the use of sea salts or chlorides (NaCl, CaCl ₂ ) exceeding the allowable amount, and the prevention of freezing. The presence of a large amount of Cl ^- ions causes corrosion of the reinforcing steel in the concrete, cracking occurs due to the expansion pressure caused by the corrosion, and later the dropping of the concrete covering the steel.

In the East Sea of concrete, excessive expansion pressure is generated during the process of freezing in winter and melting in spring as the moisture of porous concrete surface changes with season. Fine cracks occur, and in the long term, the surface of the concrete is dropped out.

Carbonation or neutralization of concrete refers to a phenomenon in which strongly alkaline concrete with a pH of about 12 to 13 loses its alkalinity by reacting with carbon dioxide gas in the air. ) Has a feature that progresses remarkably fast. As a result of this neutralization (carbonization), the hardened cement paste produced by the reaction between cement and water is hard cement gel, pores (capilaly pores) between gels and gels, and a large amount of calcium hydroxide [ Ca (OH) ₂ ] A porous material composed of crystals.

On the other hand, the water present in the pores of the concrete contains alkali (Na ⁺ , K ⁺ ) and calcium hydroxide (known as up to 35% when fully hydrated) to become an aqueous solution of strong alkaline (pH ≒ 12.5 to 13).

However, a small amount of carbon dioxide (carbon dioxide: CO ₂ ) is present in the air, and gradually diffuses from the concrete surface through the capillary pores, and reacts with calcium hydroxide contained in the water in the pores to precipitate as calcium carbonate and precipitate. The concrete gradually neutralizes (carbonizes) by the neutralization reaction by calcium hydroxide and carbon dioxide in the concrete, and the strong alkalinity of the concrete, which maintains the anti-corrosion ability of the rebar, is gradually neutralized, and the pH is lowered to about 10 or less. The rust begins to rust in the reinforcing bars, cracks are generated by the expansion pressure due to rusting, and the surface-covered concrete protecting the reinforcing bars is dropped, so that the strength of the steel gradually decreases and the service life of the structure ends.

In addition, calcium carbonate produced at this time is a soluble substance that is slowly dissolved in water and seeps to the surface to contaminate the concrete surface (commonly called bleaching phenomenon).

From the problems pointed out above, the decisive causes of defects caused by various premature aging of concrete are necessarily present in the interior of the concrete, and also the constant exchange of ions (generally called semi-permeable membrane phenomenon) and environmental temperature. since this and the water proceeds from defects react with each other chemically, ^- always moving because of a change and alkali ions (Na ^+, K ⁺⁾ and the porous chloride ion (Cl) from entering from or external present in the concrete inside of which blocking the invasion of water from the outside, sikimyeo quickly discharged out of the water the concrete, as well as, alkali ions (Na ^+, K ⁺⁾ and chloride ion (Cl ^-) of the aging phenomenon by adsorption and fixing the harmful ion, such as Finishing the surface with a material that can inhibit its progression will prevent the premature aging of concrete and the occurrence of various defects. It can be seen that it can be prevented.

On the other hand, when looking at the surface finish or the method based on the conventional concrete, first of all, the basic principle of the above-mentioned concrete aging aging phenomenon is not considered, it merely functions to finish the concrete by applying, Rather, it prevents the discharge of water supplied from the back side and serves to inhibit the aging or function of the structure.

For example, in the conventional floor finishing construction, in order to increase the adhesion between the finishing material and concrete, a material mainly forming a dense impermeable and air permeable coating of an emulsion that forms a urethane or epoxy series or a rubber film after drying is mainly used. Primers or adhesives are used, and their application flows into the micropores of the concrete surface, covering the concrete surface with a dense coating. Of course, these primers or adhesives exert a temporary adhesive force, but because they have a chemical reaction irrelevant to the hydration reaction of the concrete can not be integrated with the concrete, in particular, in the presence of water can not exhibit sufficient adhesion.

In addition, excessive water-tightness difference between the primer and the adhesive having a porous concrete and a dense impermeable coating will result in a significant drop in adhesion.

In addition, the expansion of the vaporization due to the temperature rise of the moisture transferred to the primer or adhesive layer lowered adhesive strength is the main cause of defects such as lifting, cracking, swelling or dropping of the finishing material often seen on the conventional floor It is already accepted as a clear fact, and the waste of resources and resources used to repair it already surprises us on an unimaginable scale.

Next, the conventional floor finishing work is mainly used to grind the irregularities or latencies (attached to the surface of the cement residue on the surface of the concrete) with a grinder such as a grind, and to apply or apply the finishing material on the surface. .

However, no matter how precisely polished, there are some irregularities on the ground, and these irregularities do not allow a uniform thickness finish, and in particular, when finishing with a thin film, there is a part that does not finish at all. .

In order to solve this problem, the base may be adjusted with a mortar in which urethane, epoxy or emulsion is mixed into cement, or a mortar with a self-leveling material, but this is also an impermeable and dense film as in the primer or adhesive layer. As there is little air permeability, we can often see phenomenon that whole mortar floats from ground.

Finally, the conventional floor finishing material applied or pasted on the primer or adhesive or the mortar layer for adjusting the background is an organic synthetic polymer product having a dense structure such as urethane, epoxy, polyester, vinyl chloride, etc., mainly characterized by waterproofness and compactness. There is no air permeability to release the moisture inside, and when it is exposed to the outside, it causes yellowing (the first color turns yellow), discoloration and fading under the influence of ultraviolet rays etc. There is a weak durability, such as hydrolysis phenomenon, and other problems, such as wear resistance, chemical resistance. In particular, such organic synthetic polymer-based finish is weak to heat, there is also a problem that is burned while emitting a gas harmful to the human body when ignited.

Therefore, the present invention was created in view of the problems of the conventional floor finishing material and construction method based on the concrete as described above, the object is not merely as a floor finishing method with aesthetics or simple functions required as the structure floor, It prevents the occurrence of concrete aging phenomenon, which is the foundation of the structure, or heals the already aged concrete to its initial state, thereby contributing to improving the durability of the structure, as well as conventional floors such as aesthetics, durability, weather resistance, abrasion resistance, chemical resistance and fire resistance. It is to provide a breathable water repellent floor finishing method for improving the durability and rehabilitation of the concrete base that can be provided evenly without this performance.

1 is a view showing a primer layer of a water-repellent type floor finishing method for improving the durability and rehabilitation of the concrete floor of the present invention.

Figure 2 is a view showing a ground reinforcement layer formed on the primer layer of the breathable and water-repellent floor finishing method for improving the durability and rehabilitation of the concrete floor of the present invention.

3 is a view showing the first layer of the coating applied on the primer layer and the base reinforcement layer of the water-repellent type floor finishing method for improving the durability of the concrete floor of the present invention.

Figure 4 is a cross-sectional view showing that the construction is completed by a water-repellent floor finishing method for improving the durability and rehabilitation of the concrete floor of the present invention.

<Description of Symbols for Main Parts of Drawings>

4: primer layer 6: base reinforcement layer

8: top first layer 10: top second layer

In order to achieve the above object, the breathable water-repellent floor finishing method for improving the durability and rehabilitation of the concrete base of the present invention comprises the step of forming a primer layer mainly composed of lithium silicate to penetrate the concrete surface The biggest feature. The mechanism and advantages of using the lithium silicide in the present invention are as follows.

(1) Since lithium silicate has a particle size smaller than that of colloid, the permeability of cement-based materials is excellent. In addition, lithium silicate penetrates the cement-based material and is then filled and dried between the cement gel and the gel to form a very hard glassy solid. Thus, the base impregnation layer is further strengthened by the adhesive filling action of the solidified material. Will be. On the other hand, since these glassy solids are mainly composed of amorphous silica, they react with calcium powder in cement materials in the long term to produce calcium silicates of the same kind as hydrates of cement. This reaction is called the pozzolanic reaction, as in silica fume used as admixtures to increase the strength of concrete, and of course the improvement of the watertightness and strength of the concrete surface is accompanied.

(2) Lithium silicate has a network structure molecularly. This molecular structure serves to discharge the moving water in the concrete to the outside. As a result, in the case of the primer or adhesive used in the conventional floor finishing, an impermeable film is formed, and it is possible to fundamentally solve a phenomenon such as swelling and lifting.

(3) Generally, the silicate material has a structure capable of adsorbing Na +, K +, and Cl- ions at the end of its molecular structure, but the conventional silicate material is a phenomenon in which siloxane bonds are cleaved by OH- (solubility). ), And shortly after construction, its effect is lost, or rather, it causes fine cracks on the surface of concrete. However, the lithium silicate of the metal used in the present invention has such defects unlike the conventional one. It has the characteristics of poor solubility that does not happen at all. This molecular structure suppresses the migration of strongly alkaline harmful ions that affect the durability of concrete, thereby suppressing the whitening and neutralization caused by the reaction with CO2 gas on the concrete surface. In addition, since the movement of Cl- ions supplied from the outside to the inside of the concrete is prevented for a long time, it has a function of suppressing neutralization and rust generation of reinforcing bars. In addition, since the lithium silicate is an alkaline material of about pH 10-11, it also serves to restore the alkalinity of the old concrete surface.

In addition, the water-repellent floor finishing method for improving the durability and rehabilitation of the concrete base of the present invention comprises the steps of forming a reinforcing layer to improve the heterogeneity and mechanical performance due to the irregularities of the concrete base, and acrylic acid having a solid content of 40 to 50%. Coloring with an ester copolymer, an aqueous solution of lithium silicate and an inorganic pigment, and applying an aqueous inorganic bottom finish material containing a small amount of other additives twice in an amount of about 0.15 to 0.3 g / m ² , respectively, coated the first layer of the top coat. It is configured to further include any one or more of the step of forming and applying a top coat material containing a lithium silicate aqueous solution as a main component to about 0.05 ~ 0.3g / m ² to form a top coat second layer. With reference to the accompanying drawings, a water-repellent floor finishing method for improving the durability and rehabilitation of the concrete floor of the present invention, including the features of using these additional steps will be described in detail as follows.

1 is a view showing a primer layer of the water-repellent type floor finishing method for improving the durability and regeneration repair of the concrete floor of the present invention, Figure 2 is a water-repellent floor for durability improvement and rehabilitation repair of the concrete floor of the present invention Figure 3 is a view showing a base reinforcement layer formed on the primer layer of the finishing method, Figure 3 is a top coat layer applied on the primer layer and the base reinforcing layer of the water-repellent type floor finishing method for improving the durability and rehabilitation of the concrete base of the present invention 4 is a cross-sectional view showing that the construction is completed by a ventilation water-repellent floor finishing method for improving the durability and rehabilitation of the concrete base of the present invention.

1 is a cross-sectional view showing a primer layer of a breathable water repellent type floor finishing method for improving the durability and rehabilitation of the concrete base of the present invention, a primer, mainly composed of lithium silicate on the concrete ground (2), such as brush, roller or spray When applied using, the primer layer 4 is rapidly penetrated between the micropores existing on the concrete surface, and is filled with a firm bonding force between the cement gel and the gel.

The primer layer 4 mainly composed of lithium silicate causes silica reaction with the unhydrated material in the concrete base 2 to generate new acicular crystals to densify the pores in the concrete.

On the other hand, since the lithium silicate contains a large number of silane groups in the network structure, it is breathable and adsorbs and fixes harmful ions that affect the durability of concrete due to its molecular structure. In addition, the capillary diameter of the surface is made of electrolyte to increase the surface tension to increase the water repellent effect and at the same time exhibit high adhesion.

If the primer layer (4) exhibiting the permeability, breathability, water repellency, adhesion and surface reinforcing effect of the lithium silicate as a main component is used, other primers or adhesives of other organic synthetic polymers are used. Of course, it is not preferable to use other materials because it is difficult to achieve a predetermined goal because it is difficult to secure the durability of the regeneration and other long-term adhesive strengths, and may impair the durability of concrete.

In addition, the amount of the primer used as the main component of the lithium silicate in the present invention can be appropriately adjusted according to the base material or the use environment, in parallel with the specific amount of the base reinforcement layer, the top coat layer 1 and the top coat layer 2 below. In the case of using it, it is expected to use the amount of more than 0.1g / m ² at least sufficient expression of the effect.

In FIG. 2, the base reinforcement layer 6 is formed on the primer layer 4 to improve the heterogeneity and mechanical performance due to the irregularities of the concrete base. The backing reinforcement layer 6 is made of polyester nonwoven fabric or formed of a nonwoven fabric which greatly improves the directional and mechanical performance by heat-compressing nylon resin on the surface by using either aluminum or polyester resin as a core material. It is desirable to secure the thickness. In this case, if an alkaline aqueous solution of pH 6-11 containing lithium silicate as a main component is applied with an appropriate thickness of cement mortar having a thickness of about 3 to 30 mm mixed with 0.1% to 10%, the thickness imbalance due to irregularities in the base However, since the cracks due to the mechanical behavior can be more effectively dispersed or absorbed, and the base reinforcement layer 6 capable of discharging the moisture inside the concrete that penetrates the primer layer 4 to the outside can be made. Phenomena such as lifting, swelling, etc., which were frequently generated in the base reinforcement layer, can be prevented in advance. In addition, the cement mortar having the above-mentioned components has a characteristic of contributing to the improvement of water repellency and waterproofing ability of the finishing material because of its self-water repellency, which is either polyester nonwoven fabric or aluminum or polyester resin on the surface of the core material. Nylon resin is separated from the non-woven fabric by heat compression may be used alone as a backing reinforcement layer. In particular, this method is effective when the background adjustment is poor.

On the other hand, the thickness in the case of forming the base reinforcement layer with the above-described polyester nonwoven fabric is preferably 0.1-0.5mm.

3 is a cross-sectional view showing the first layer 8 of the top coat layer 4 and the primer layer 4 and the base reinforcement layer 6 of the water-repellent bottom finishing method for improving the durability of the concrete base of the present invention and repair. The first coat layer 8 is colored with an acrylic ester copolymer having a solid content of about 40 to 50%, a lithium silicate aqueous solution and an inorganic pigment, and a small amount of a desiccant, a plasticizer, a dispersant, etc. is added as other additives. As an aqueous inorganic floor finishing material, it is divided and applied twice in the quantity of about 0.15-0.3 g / m <^2> with a brush, a roller, or a spray.

The aqueous inorganic floor finish material is applied once, and then sufficiently dried and then applied a second time by applying a total amount of 0.3 ~ 0.6g / m ² , first, the lithium silicate component is a mortar for primer layer or background adjustment Since it is chemically bonded to the lithium silicate of the layer is characterized by a firm adhesion.

In addition, the floor finishing material exhibits air permeability and water repellency in its composition, improves the waterproofness of the coating film, and has various performances required for floor finishing materials such as durability, abrasion resistance, chemical resistance, weather resistance, or fire resistance.

On the other hand, since the finish of the present invention mainly composed of inorganic components has a small resistance to cracking of the base, the resistance to cracking is not limited to 0.1 to 0.5 mm thick polyester nonwoven fabric or aluminum or polyester resin applied when adjusting the base. One of them has a feature that the nonwoven fabric bears the inside of the nonwoven fabric by heat-compressing a nylon resin on the surface with a core material, thereby greatly improving the directionality and mechanical performance.

As an aqueous inorganic floor finishing material which is colored with an acrylic acid ester copolymer having a solid content of about 40 to 50% in the present invention, a lithium silicate aqueous solution and an inorganic pigment, and a small amount of other desiccants, plasticizers, and dispersants are added. Applying a small amount of solids of the acrylic ester copolymer in the process of dividing it twice in an amount of 0.3 to 0.6 g / m ² with a brush, roller, or spray, and the required hardness and wear resistance required for the floor are sufficient. It cannot be secured, and also poor workability and it is impossible to form a uniform finish layer.

Further, the transmission amount of CO ₂ that is turned is small, the area of the pore diameter that the water can pass through the air-permeable or ppajimyeo, in particular, supplied from the outside increases, the concrete protective role function is decreased when higher.

On the other hand, when the coating amount is larger than about 0.3 to 0.6 g / m ² , cohesive failure occurs during drying, and there is a possibility that minute cracking occurs. When the coating amount is smaller than this, it is difficult to secure required thickness.

In particular, if the total coating amount is not divided into two and the coating is not waited for appropriate drying, the coating may be applied in two separate applications during the application, because in addition to the above-described defects, peeling between the coating layers may occur and defects may occur.

4 is a step of forming the primer layer (4), the base reinforcement layer (6), the top layer first layer (8) of the water-repellent floor finishing method for improving the durability and rehabilitation of the concrete base of the present invention, Finally, in order to improve the durability, the top coat material containing lithium silicate as a main component is applied in an amount of about 0.05 to 0.3 g / m ² and a cross-sectional view in which the top coat second layer 10 is formed. The film has characteristics that can improve ultraviolet rays, impact resistance, and wear resistance.

Here, the coating amount at the time of forming the top coat second layer 10, that is, if applied in a range of less than 0.05 ~ 0.3g / m ² is less effective in improving the durability, on the contrary, if a coating amount of more than this is uneconomical, It is preferable to apply the second layer 10 within the range of 0.05 to 0.3 g / m ² .

Therefore, the aerated water-repellent floor finishing method for improving the durability and rehabilitation of the concrete floor of the present invention is not a simple floor finishing method that merely requires aesthetics and simple functions as a conventional structure floor, but is the basis of the structure. There is a great effect to prevent the occurrence of concrete aging, or to improve the durability of the structure by curing the already aged concrete to the initial state.

In addition, there is a feature that evenly equipped with the performance that conventional flooring, such as aesthetics, durability, weather resistance, wear resistance, chemical resistance and fire resistance.

Claims (7)

In the breathable water repellent floor finishing method for improving the durability and rehabilitation of concrete ground, Aerated water-repellent floor finishing method comprising the step of forming a primer layer (4) mainly composed of lithium silicate on the concrete base (2). The method of claim 1, Aerated water repellent floor finishing method further comprising the step of forming a base reinforcement layer (6) to improve the heterogeneity and mechanical performance due to the irregularities of the concrete base. The method according to claim 1 or 2, Forming an upper first layer (8) coated with an aqueous inorganic floor finish and / or a second upper layer (10) coated with an upper coating material mainly containing an aqueous solution of lithium silicate. Vertical floor finishing method. In the water-repellent floor finishing method for improving the durability and rehabilitation of the concrete ground, Forming a primer layer (4) containing lithium silicate as a main component to penetrate the concrete surface on the concrete base (2); Forming a ground reinforcement layer (6) to improve the heterogeneity and mechanical performance due to the unevenness of the concrete ground; An aqueous inorganic floor finish material colored with an acrylic acid ester copolymer having a solid content of 40 to 50%, an aqueous lithium silicate solution and an inorganic pigment, and a small amount of other additives is added in an amount of 0.15 to 0.3 g / m ² , respectively. Applying twice to form a top coat layer 8, A method of forming a breathable water repellent bottom finish comprising the step of applying a top coat material containing lithium silicate aqueous solution as a main component at about 0.05 to 0.3 g / m ² to form a second top layer (10). The method of claim 4, wherein The first coat layer (8) is applied once, then sufficiently dried and then applied a total of 0.3 to 0.6 g / m ² when the second coating is aerated water repellent floor finishing method. The method of claim 4, wherein The base reinforcing layer 6 is a polyester nonwoven fabric having a thickness of about 0.1 to 0.5 mm that can absorb the mechanical behavior of the ground of concrete, or by heat-compressing a nylon resin on the surface by using any one of aluminum or polyester resin as a core material. Breathable water repellent floor finishing method using nonwoven fabric. The method according to claim 4 or 6, The base reinforcing layer (6) is a water-repellent bottom finish characterized in that the aqueous solution of pH 6-11 containing lithium silicate as a main component is formed of cement mortar having a thickness of about 3 to 30 mm incorporating 0.1% to 10%. Way.