KR101557300B1 - Concrete Composition and Method for Manufacturing thereof and Artificial Sculptures by Using Concrete Composition - Google Patents

Abstract

The present invention relates to a concrete composition, a manufacturing method thereof, and a sculpture using the concrete composition. The sculpture forms: a kudzu vine fiber extracted from a kudzu vine; a concrete composition formed by mixing an alginic acid lysate extracted from seaweeds and cement at a certain ratio; and a sculpture using the same. By mixing the alginic acid lysate in the cement, the concrete composition overcomes a part which is cracked due to a large contraction when stiffened or broken as a curve and impact strength is weak as the concrete composition is dried, and promotes a combination of materials as well as preventing a crack.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete composition, a manufacturing method thereof, and a molding using a concrete composition,

The present invention relates to a concrete composition, and more particularly, to a concrete composition which contains cementitious fiber and alginic acid dissolved in cement to increase the strength of cement and prevent cracking, a method for producing the concrete composition, and a molding using the concrete composition.

Generally, to make artificial wall or artificial waterfall on a park or incision slope, an artificial arm is made and moved to the site to install the artificial rock on artificial waterfall or artificial rock wall.

These artificial structures are often installed in places such as theme parks, amusement parks, museums, water parks, etc. for learning and leisure purposes.

Artificial structures are mainly formed by Glassfiber Reinforced Cement (GRC) method. Glass fiber and chemical adhesive can be used for cement to maximize the feeling of natural stone.

The GRC method is an insecure material method which has the adverse effects on the human body and environment by adding glass fiber and chemical adhesive which cause various carcinogenic substances to the cement which does not remove toxins.

Materials and materials made with the GRC process may be more fatal to children and infants who are younger because of the release of chemical toxins such as carcinogens.

Therefore, the GRC method is widely used in artificial structures, and it is necessary to develop environmentally friendly natural materials in order to prevent the destruction of the environment or damage to the human body.

In order to solve such problems, the object of the present invention is to provide a concrete composition for improving the strength of cement and preventing cracking by mixing cementitious fiber and alginic acid dissolved in cement, a method for producing the same, and a molding using a concrete composition .

In order to achieve the above object, the concrete composition according to the present invention is characterized in that,

It is formed by mixing algae fiber extracted from alfalfa, alginate extracted from seaweed, and cement at a certain ratio.

A method of manufacturing a concrete composition according to an aspect of the present invention includes:

Cutting the alfalfa, adding water and boiling for a certain period of time, putting the softened shell into a pulverizer and crushing it to produce microfibrillated fiber of tissue;

Extracting the alginate lysate by heating the algae in a baking furnace containing the compounding water for a predetermined time and temperature; And

And mixing the alginate fiber and the alginate lysate together with the cement and water to form a concrete composition.

The sculpture using the concrete composition according to the present invention,

A foundation frame fixedly installed outside the installation wall;

A shaped frame fixedly installed on the outer surface of the foundation frame to form a basic shape of the building;

A deformed reinforcing bar fixedly installed on the outer surface of the molding frame to form a detailed shape of the molding;

A metal net fixedly installed on the outer surface of the deformed reinforcing bar and coated with an adhesive on its surface; And

And a concrete composition applied to the outer surface of the metal net.

According to the above-mentioned constitution, the present invention overcomes the fragile parts due to cracking, bending and low impact strength due to large shrinkage when the concrete composition is dried by mixing the alginic acid dissolved in the cement to prevent the bonding and cracking of the materials. do.

The present invention not only neutralizes the toxicity generated from cement by mixing alginic acid dissolved in cement, but also has the effect of preventing moisture and waterproofing, enhancing coating durability, preventing whitening and preventing cracks.

The present invention improves the durability and tensile property of cement by using bamboo fiber as a blending material of cement, and tightens cement structure to prevent cracking of cement and increase strength to prevent shrinkage of cement.

The present invention prevents eco-friendly toxin problems in materials and materials by using environmentally friendly composite materials of alginate fiber and alginate liquor without using glass fiber as a blending material of cement.

1 is a view illustrating a method of manufacturing a concrete composition according to an embodiment of the present invention.
FIGS. 2 and 3 are views showing a molding including a concrete composition according to an embodiment of the present invention and a method of manufacturing the same.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

1 is a view illustrating a method of manufacturing a concrete composition according to an embodiment of the present invention.

The concrete composition of the present invention is prepared by mixing 20 parts by weight of alginate fiber, 30 parts by weight of alginic acid lysate, and 10 parts by weight of water with 100 parts by weight of cement.

In the method for preparing the ginseng fiber, the thick part of the lower part of the gill gut is cut and put into a fiber extracting device, water is poured and boiled for about 1 hour, and then the softened skin is pulverized and the microfibrillated fiber is formed and discharged (S100).

Here, the fiber extracting apparatus can be any device having a function of boiling the raw material at a predetermined temperature and a function of grinding raw materials to extract the finely divided fibers.

It is used as a blending material of cement to strengthen durability and tensile property of cement.

Dewarage fiber is a dense cement to prevent the cracking of the cement and increase the strength to prevent the cement shrinkage.

The alginate lysate is prepared by heating seaweeds at 60 DEG C for 3 hours in a baking furnace containing the mixture water. Here, seaweed is a marine vegetation that is classified into a group of seaweed, brown algae, red algae, and the like, and is preferably selected from the group consisting of seaweed, seaweed, bales, kelp, and kelp, which is a brown algae containing a large amount of alginic acid.

The sintering furnace heats and decomposes the seaweed to discharge the alginate lysate (S102). Here, the alginate lysate is composed of 30% of alginic acid mucilage, 20% of fiber, and 50% of carbohydrate.

The composition of marine algae generally has a high carbohydrate content and contains about 35-70% of carbohydrates, especially on the basis of brown algae.

The alginate liquor works as a binder for accelerating the bonding of the materials and preventing the cracks by overcoming the fragile parts due to the shrinkage due to the drying of the concrete composition and cracking and the weak bending and impact strength.

Alginic acid liquor not only neutralizes the toxicity from cement when mixed with cement, but also has the effect of preventing moisture and waterproofing, enhancing surface durability and preventing whitening and cracking.

The method of extracting the alginate lysate may be various methods such as heating the dried algae with ethanol, removing the inorganic substances, treating the extract with weak acid in Na ₂ CO ₃ aqueous solution, have.

According to the present invention, it is possible to prevent eco-friendly toxin problems in materials and materials by using an environmentally friendly composite material of alginate fiber and alginate liquor without using glass fiber as a blending material of cement.

A molding panel including a concrete composition of the present invention and a method of manufacturing a molding panel will be described in detail. Here, the molding panel can be applied to a sculpture for landscaping, an artificial waterfall for artificial waterfall, an artificial rock wall for bouldering, and the like.

The molding panel of the present invention is used as a landscape sculptured molding by compression-molding the above concrete composition into a panel of a predetermined size.

First, the first step is to apply the silicone on the surface of the natural sculpture to float the rubbish. In other words, the natural sculpture to be rubbed is selected, and the gel-like silicon is applied to a predetermined part of the surface of the selected natural sculpture to a predetermined thickness.

Then, in the second step, the silicon is removed after removing the silicon.

Silicone is not so good in its own properties, so it must be reinforced to preserve its rubbed shape.

For example, it is possible to preserve the shape of silicon by applying an FRP layer to the surface of the silicon and solidifying it.

Remove the silicon preserved in shape by the FRP layer from the native molding.

Step 3 is to apply a release agent to the inner surface of the silicon.

Since the concrete composition is to be applied to the inner surface of the silicon, a release agent is previously applied to smoothly remove the concrete composition and silicon.

In the fourth step, the concrete composition containing the alginate fiber and alginate dissolved therein is applied to the inside of the silicon to a certain thickness.

In step 5, when the applied concrete composition is solidified, the concrete composition and silicon are separated, and the shape of the natural molding is replicated on the surface of the separated concrete composition.

Repeatedly doing this work, several pieces of molded panels replicated with natural sculptures are created, and when they are connected, sculptures of the same shape as natural sculptures are created.

FIGS. 2 and 3 are views showing a molding including a concrete composition according to an embodiment of the present invention and a method of manufacturing the same.

The molding product forms a foundation frame 110 fixedly installed on the installation wall surface 100 (S200).

The foundation frame 110 is fixed to the outer surface to form a molding frame 120 (S202) that forms the basic shape of the molding.

The formwork frame 120 is fixed on the outer surface to form a deformed reinforcing bar 130 indicating the detailed shape of the molding (S204).

The deformed reinforcing bar 130 is fixed on the outer surface and forms a metal mesh 140 on which the adhesive 150 is applied (S206).

The metal net 140 is coated with a concrete composition 160 containing alumina fibers and alginate dissolved therein (S208).

The concrete composition 160 may form a waterproof layer 170 by surface treatment on the outer surface.

A method of manufacturing a molding including the concrete composition 160 of the present invention will be described.

In step S200 of installing the foundation frame 110, a steel structure including C-shaped steel and H-shaped steel is fixed to the outer surface of the installation wall surface 100 by a fixing means such as a bolt.

The foundation frame 110 and the shaped frame 120 to be bolted can be constructed as a prefabricated lightweight steel frame system according to the size and weight of the building to be constructed.

The formwork framework 120 is a framework that forms the base form of the desired artwork.

In step S204 of forming the detailed shape of the molding, the deformed reinforcing bar 130 is placed on the molding frame 120.

In step S206 of installing the metal mesh 140 on the outer surface of the deformed reinforcing bar 130, a dense mesh metal mesh 140 is installed on the deformed reinforcing bar 130 having a plurality of hollow spaces.

The concrete composition 160 can be smoothly adhered to the deformed reinforcing bar 130 and the metal net 140 in the step S208 of applying the concrete composition 160. [

Between the concrete composition 160 and the deformed reinforcing bar 130, an adhesive 150 may be applied to improve adhesion between dissimilar materials such as metal and concrete.

That is, since the bonding strength between the metal and the concrete is weak, the bonding strength is small and the water resistance is low. Therefore, when the metal is in contact with moisture such as rain or moisture, the bonding strength is lowered by moisture such as moisture, A phenomenon occurs in which the protrusion 160 is peeled off.

To prevent this, it is preferable that an adhesive 150 is applied between the metal and the concrete composition 160.

The component of the adhesive 150 is preferably a radical polymerization initiator having one or more ethylenically unsaturated double bonds in one molecule and having at least one methacryloyl group or acryloyl group in one molecule and a compound capable of accelerating decomposition of the polymerization initiator .

In the step of forming a molding such as an artificial arm, a concrete composition 160 including a mortar fiber and an alginate dissolved therein is applied to the surface of the metal mesh 140.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100: Installation wall surface
110: foundation frame
120: Plastic framing
130:
140: metal mesh
150: Adhesive
160: Concrete composition
170: Waterproof layer

Claims (4)

delete delete delete As a molding comprising a concrete composition,
A foundation frame fixedly installed outside the installation wall;
A shaped frame fixedly installed on an outer surface of the foundational frame to form a basic shape of the molded object;
A deformed reinforcing bar fixedly installed on an outer surface of the molded frame to form a detailed shape of the molded product;
A metal mesh fixedly installed on the outer surface of the deformed reinforcing bar and coated with an adhesive on the surface thereof; And
A concrete composition formed by mixing 20 parts by weight of alginic acid fiber, 30 parts by weight of alginic acid dissolved in water, 10 parts by weight of water and 100 parts by weight of cement, applied on the outer surface of the metal net, An adhesive is applied to improve the adhesion between the different materials of the concrete and the concrete,
The component of the adhesive is a so-called radical polymerization initiator having an ethylenically unsaturated double bond in one molecule and having at least one methacryloyl group or acryloyl group in one molecule and a concrete containing a compound accelerating decomposition of the polymerization initiator Sculpture using composition.

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