KR100295009B1 - Structural materials based on ocher and oyster shells and their manufacturing methods - Google Patents

Abstract

The present invention relates to a structural material based on loess and oyster shells (main use: artificial fishes, bricks, sidewalk blocks, soundproof walls, boundary stones, median strips, etc.) and a method of manufacturing the same.

That is, the oyster shell and the loess are dried at a temperature of about 400 ° C., and the oyster shell and the loess are separated from each other by using a passing powder having a particle size of 100 MESH or more, And the product is molded using a vacuum kneader such that the vacuum kneader is at least 70HP, the vacuum degree is at least 74kg / cm 2, and the molding water is about 20 to 25%. It can be used for various purposes by obtaining the structural material by calcining the product at a temperature of about 1250 ° C. to 1350 ° C. by being loaded on a drying drum to have a dry moisture of about 3.0% or less, and in particular, It is possible to provide an excellent effect on pollution prevention and the like.

Description

Structural materials based on ocher and oyster shells and their manufacturing methods

The present invention relates to a structural member made of loess and oyster shell as a main material (principal use: artificial fish candle, brick, sidewalk block, soundproof wall, boundary stone, median separator, etc.) and a manufacturing method thereof.

Generally, the average number of structures or structures made of ordinary cement is known to be about 40 to 50 years. However, in the case of a structure constructed of reinforced concrete, its lifespan is known to be shorter due to the oxidizing action of reinforcing bars.

In particular, a structure such as an artificial fish that is installed in the seawater has an oxidation action of the reinforcing bar implanted in the inside of the structure for the core role due to salinity in the seawater more rapidly, and rupture of the structure due to the oxidation of the reinforcing bar takes about 4 to 5 years And segregation of separated structure and sludge of corroded reinforcing steel not only pollute seawater, but also harm the seaweed and the breeding of seafood.

In addition, since the artificial fish made from such cement has strong alkaline properties, if the artificial fish is added to the seawater for a certain period (about 3 months or about 1 to 2 years according to the inventor's experiment) And seaweeds were not able to reproduce.

In case of ordinary reinforced concrete structures, it is only about 82.Okg / ㎠ in terms of compressive strength, so it is difficult to use it as various structures unless it is cured for more than one month. In particular, It was necessary.

In order to improve the mortar compressive strength of various cements in recent years, cement mixed with ultra fast hard minerals has been introduced in the market, but this is also not environmentally friendly and thus has the above problems.

Therefore, in the present invention, a variety of naturally friendly new structures (for example, artificial fishes, bricks, sidewalk blocks, soundproof walls, economic seats, median seals, etc.) that can solve the problems of cement and reinforced concrete, And the like, and a method for producing the above structural material, and has completed the present invention with a technical problem.

FIG. 1 is a manufacturing process diagram for explaining a preferred embodiment of the present invention. FIG.

FIG. 2 (a) is an EDS chemical analysis chart for each material according to the present invention. FIG.

FIG. 2 (b) is a chemical analysis chart of EDS according to the present invention.

FIG. 2 (c) is a chemical analysis chart of EDS according to the present invention.

FIG. 3 (a) is a SEM photograph of the material according to the present invention. FIG.

Fig. 3 (b) is a SEM photograph of the material according to the present invention. Fig.

Figure 3 (c) is a SEM chart of the material according to the present invention.

FIG. 1 is a block diagram showing a manufacturing process of a structural member for achieving a desired object in the present invention. FIG. 2 (a) through FIG. 3 (c) The SEM histogram of the material, and the like, and the present invention will be described in detail with reference to the following.

[Manufacturing method]

(1) drying oyster shells and loess

Oyster shell and loess are dried at a temperature of about 400 ° C.

(2) Sieve separation of oyster shell and loess

Oyster shells and loess are each separated by using the pulverized powder having a particle size of 100 MESH or more.

(3) mixing by oyster shell and loess ratio

Mix using a cylindrical mixer (agitator) at a rate of about 25-30 RPM with about 20-25% moisture.

(4) Molding of products using vacuum punching machine

The product is molded using a vacuum pouring machine so that the vacuum sowing machine pressure is about 70HP or more, the vacuum degree is 74kg / cm 2 or more, and the molding water is about 20 to 25%.

(5) Loading of dryers for shelves

Load the product on the drying rack so that the moisture content of the product is about 3.0% or less.

(6) Product baking

The product is calcined at a temperature of about 1250 ° C to 1350 ° C. Gas and diesel are used for the oil at the time of firing.

(7) Product Inspection

The dimensions and strength of the product, and other tests.

(8) Shipment

Pack the product and ship it.

The structural material of the present invention is prepared by the above-mentioned production method, and the following points are particularly noteworthy.

That is, the oyster shell must be completely dried and calcined (about 400 to 600 ° C) and then used for grinding. The grain size of the oyster shell should be 1,000 MESH standard passing powder. Sintering is facilitated when mixing ratio by weight, and the product strength can be improved.

Also, it is necessary to provide an equipments such as a stirrer so as to be completely mixed when the oyster shell and the loess soil are combined. According to the analysis by the present inventor, it has been confirmed that if the mixing of the two is not uniform, the strength after the baking is greatly affected.

As shown in Table 1 below, when the amount of oyster husk used was about 4 to 6 wt%, the best physical properties (i.e., product strength, shrinkage, absorption rate, 1 g- loss. In addition, when the amount of oyster shell used is mixed with the ratio of the oyster shell, the strength of the product is also increased due to the good fusion with the ocher component.

In the above process, the amount of oyster shell used is about 4 to 6 wt% in combination with the loess, but since the blending ratio is a weight ratio, a substantial amount of oyster shell is actually used, and the effect of recycling waste is also great.

The inventor of the present invention has succeeded in testing the properties of the structural specimen of the present invention as follows:

[Example 1]

In the following test, the test method and conditions were as follows.

The ocher and oyster shells were dried at about 400 ° C for 9 hours. The loess was dried and then pulverized and separated into 100 MESH standards. The oyster shells were dried and pulverized and separated into 100 MESH standards.

The forming mold was molded by 5 pieces each having a length of 12 cm and a thickness of 1.5 cm. The molding water was 8% and the molding pressure was 600 kg / cm 2. The molded piece was dried (9 hr) .

The specimens were fired in an electric furnace at a temperature of 1250 ° C for about 12 hours (hr), and physical properties and chemical composition were tested.

In Tables 2 to 4 below,

The plastic shrinkage ratio (unit:%) is [(dry length - firing length) / dry length] × 100

Absorption rate (unit:%) is [(saturated weight - plastic weight) / saturated weight] × 100

lg-loss (unit:%) is [(dry weight - plastic weight) / dry weight] × 100

The compressive strength (M, unit: kg / cm 2) is (3PL / 2bd ² ) x 50

.

However,

M is the compressive strength (kg / cm 2)

P is the maximum breaking load (kg / ㎠)

L is the specimen length (cm)

b is the specimen width (cm)

and d is the thickness (cm) of the specimen

(Note: Oyster shells have a true specific gravity of 2.1 to 2.6, a bulk specific gravity of 0.2 to 0.4, a chemical composition of 90% or more of CaO and emit CO ₂ at a calcination temperature of 800 to 900 ° C., and mainly contain building materials, Etc.).

As described in detail above, the structural material based on ocher and oyster shells provided in the present invention has a number of effects as described below.

That is, the structural material of the present invention can be widely used as a substitute for various structures made of cement, reinforced concrete and the like, namely, artificial fish meal, brick, sidewalk, soundproof wall, When oyster shells and ocher are used in seawater with artificial fishes, etc., oyster shells and ocher have strong absorbing power, so that they can adsorb various floating matters and contaminants in the seawater and drastically reduce marine pollution.

When the structural material of the present invention is used as an artificial fish seed, its material properties are neutral and its affinity is immediately favorable. Therefore, various seaweeds and fishes and shellfishes can be parasitized immediately upon input. It can meet the original intention of artificial fish and the far infrared rays radiated from the loess have a high emissivity of about 75 ~ 78%, which can greatly contribute to the effect of marine sterilization and pollution.

Claims (4)

The oyster shell and the loess are mixed in an amount of about 4 to 6% by weight and about 94 to 96% by weight, respectively, Structural structural material based on ocher and oyster shell characterized by processed. The method of claim 1, further comprising: Characterized in that the grain size of the oyster shell is 100 MESH standard passing fraction. The method of claim 1, further comprising: Wherein the baking temperature of the oyster shell is fired at about 1250 to 1350 ° C. Oyster shell and loess are dried at a temperature of about 400 DEG C and sieved by using a passing powder having a particle size of 100 MESH of oyster shell and loess, respectively, and water is mixed at a rate of about 25 to 30 RPM using a mixer About 20 to 25%, molding the product using a vacuum pouring machine so that the vacuum pourer pressure is about 70HP or more, the degree of vacuum is about 74 kg / cm 2, and the molding water is about 20 to 25% And the product is subjected to plastic working at a temperature of about 1250 to 1350 ° C. The method for manufacturing a structural material according to claim 1,