KR101480359B1 - Mortar composition and concrete composiyion of air filtering - Google Patents

Abstract

The present invention relates to a composition comprising 5 to 15% by weight of water; 20-30% by weight of cement; 55 to 65% by weight fine aggregate; And 2 to 6% by weight of phytoncide; wherein the concentration of the formaldehyde in the room is reduced to improve the indoor air quality by providing the mortar composition and the concrete composition capable of air purification.

Description

[0001] MORTAR COMPOSITION AND CONCRETE COMPOSITION OF AIR FILTERING [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a civil engineering material field, and more particularly to a mortar composition and a concrete composition capable of air purification.

Of the various constituents that make up the construction material, 'petal chemical' formaldehyde is released in a closed room for a long time and causes indoor pollution.

Modern people are exposed to various diseases such as sick house syndrome, building syndrome, complex compound hypersensitivity due to this 'formaldehyde'.

In order to prevent such a danger, products for reducing indoor air pollution concentration have been introduced, but most of the products are used by spraying, coating, and the like.

In addition, these products can not continue to function for 2-4.4 years, the typical half-life of formaldehyde, so long-term effects are not expected.

Therefore, it is urgent to take measures to reduce the concentration of formaldehyde, which is an indoor pollutant source.

It is an object of the present invention to provide a mortar composition and a concrete composition capable of reducing the concentration of formaldehyde in the air and improving the indoor air quality.

In order to solve the above-mentioned problems, 20-30% by weight of cement; 55 to 65% by weight fine aggregate; And 2 to 6% by weight of phytoncide. The present invention also provides an air-cleanable mortar composition.

The present invention relates to a composition comprising 5 to 10% by weight of water; 15 to 20% by weight of cement; 30 to 35% by weight fine aggregate; 40 to 45 wt% of coarse aggregate; And 2 to 6% by weight of phytoncide. The present invention also provides an air-cleanable concrete composition.

And 3 to 5% by weight of blast furnace slag;

0.5 to 1.5% by weight of fly ash.

The present invention provides a mortar composition and a concrete composition capable of reducing the concentration of formaldehyde in the air and improving the quality of indoor air.

FIG. 1 is a graph showing changes in properties depending on the air-cleanable mortar composition and concrete composition according to the present invention.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a graph showing the change in compressive strength of a mortar composition according to the amount of phytoncide incorporated; FIG.
2 is a graph showing a change in the flow value of the mortar composition flow test depending on the amount of phytoncide incorporated.
3 is a graph showing changes in the formaldehyde concentration due to the mortar composition depending on the amount of phytoncide incorporated.
4 is a graph showing changes in the concentration of formaldehyde due to the concrete composition depending on the amount of phytoncide incorporated.
5 is a graph showing changes in compressive strength of concrete compositions containing phytoncide according to age.
6 to 8 are graphs showing the stress-strain curves of the concrete composition incorporating phytoncide by age,
6 is a graph showing a stress-strain curve after 7 days from the incorporation of phytoncide.
7 is a graph showing the stress-strain curves after 28 days from the incorporation of phytoncide.
8 is a graph showing the stress-strain curves after elapse of 56 days after the incorporation of phytoncide.
9 to 12 are graphs showing changes in macropore distribution of a concrete composition incorporating phytoncide,
FIGS. 9 and 10 are graphs showing changes in macro-pore distribution after 28 days after phytoncide incorporation. FIG.
Figs. 11 and 12 are graphs showing changes in macropore distribution after 56 days from the incorporation of phytoncide. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached tables.

The air-cleanable mortar composition according to the present invention basically comprises 5 to 15% by weight of water; 20-30% by weight of cement; 55 to 65% by weight fine aggregate; And 2 to 6% by weight of phytoncide.

The present invention also provides an air-cleanable concrete composition comprising 5 to 10% by weight of water; 15 to 20% by weight of cement; 30 to 35% by weight fine aggregate; 40 to 45 wt% of coarse aggregate; 2 to 6% by weight of phytoncide; and a concrete composition comprising the same.

Phytoncide incorporated into the mortar or concrete of the present invention refers to a natural antimicrobial substance that emits in order to prevent the attack of pests and microorganisms and to protect oneself.

It has the function of reducing or neutralizing the harmful substances in the air and the population such as viruses or bacteria.

It also reduces cortisol, the stress hormone of the human body, and has a very positive effect on the human body such as immunity, sedation and sterilization.

On the other hand, modern people are exposed to various diseases such as sick house syndrome, building syndrome, complex compound hypersensitivity due to formaldehyde components released from construction materials for a long time.

In the present invention, as a countermeasure for preventing this, a composition containing phytoncide in mortar or concrete is proposed as a component for reducing the concentration of formaldehyde released into a room to improve indoor air quality.

That is, in the present invention, the phytoncide is continuously released from the mortar or concrete composition, and at the same time, the phytoncide serves to always reduce the concentration of formaldehyde emitted from the construction material.

Phytoncide not only has an excellent function of reducing the formaldehyde concentration but also has an advantage that the function of the phytoncide can be continuously exhibited for a long period of time because the period of use of the phytoncide, that is, the period during which the phytoncide is released from the composition is very long.

As a result, the concentration of formaldehyde in the indoor air is reduced, and the indoor air quality is basically improved.

In addition, it is highly desirable to prevent various diseases such as sick house syndrome and building syndrome, which are recently in question, and to secure the environment-friendliness of the indoor environment.

Accordingly, the present invention provides a mortar composition or concrete composition incorporating a phytonchid having an air purification function.

Here, the compounding ratio of the respective components is very important for securing the strength and durability of the mortar composition or the structure made of the concrete composition.

Accordingly, the compounding ratio of the respective components can improve the strength, durability and workability of the composition using an appropriate blending ratio, as described above.

Particularly, in the constituent components of the concrete composition, blended slag is preferably added and mixed.

When the blast furnace slag is mixed, the workability and compactibility of the concrete composition are improved.

It is preferable to incorporate 3 to 5% by weight of the blast furnace slag.

Further, in the constituent components of the concrete composition, it is preferable to further add fly ash.

The incorporation of fly ash has the effect of further enhancing the long-term strength of the concrete composition.

Also, there is an effect that drying shrinkage is reduced and water tightness is improved.

Hereinafter, experimental examples for explaining the effects of the present invention will be described.

Table 1 shows the blending ratio of the constituent components of the mortar composition of the present invention.

Table 2 shows the compounding ratio of the constituents of the concrete composition of the present invention.

Table 3 shows the mixing ratio of the constituents of the concrete composition to which the blast furnace slag was further added among the constituents of the concrete composition, and Table 4 shows the mixing ratio of the constituents of the concrete composition to which the fly ash was further added.

Next, the present invention provides the results of verifying the basic physical properties and the effect of the mortar composition changed by adding phytoncide to the mortar.

Table 5 shows the results of the experiment conducted according to the KS F 5105 test method to verify the change of the compressive strength (MPa) of the mortar composition.

Experimental results show that even when the amount of phytoncide incorporated increases, the compressive strength of the mortar composition is not significantly different (FIG. 1).

Therefore, it can be seen that the phytonchid does not lower the compressive strength of the mortar composition, and therefore the strength and durability of the mortar composition to which phytoncide is added can be sufficiently secured.

Table 6 shows the flow values (mm) of the flow test of the mortar composition with the addition of phytoncide.

According to the experimental results, the flow test value of the flow test was not significantly different even when the amount of the phytoncide was increased (FIG. 2).

That is, since phytoncide does not affect the flow rate of the mortar composition, it can be seen that the workability of the mortar composition to which phytoncide is added can be sufficiently secured.

Table 7 shows the results of changing the concentration (mg / l) of formaldehyde due to the mortar composition to which phytoncide was added.

The verification test for the determination of formaldehyde concentration was carried out according to KS M 1998-4.

As shown in Table 7, it can be seen that the concentration of formaldehyde decreases sharply as the amount of phytoncide incorporated increases (FIG. 3).

In addition, it can be seen that the concentration of formaldehyde continuously decreases over time.

Thus, it can be seen that the concentration of formaldehyde, which causes indoor air pollution, can be effectively reduced through the mortar composition to which phytoncide is added.

Next, the results of verifying the basic properties and the effect of changing the concrete composition by adding phytoncide to the concrete are presented.

Table 8 shows the results of changing the concentration (mg / l) of formaldehyde by the concrete composition containing phytoncide.

For the verification, experiments were conducted by placing a concrete specimen with phytoncide in the inside of the desiccator and directly covering the area of the container corresponding to 2/3 of the surface area of the specimen.

As shown in Table 8, it can be seen that the formaldehyde concentration increases in all the specimens as the age increases.

However, it can be seen that the addition of phytoncide results in an abrupt decrease in the amount of formaldehyde concentration as the age increases (Fig. 4).

Therefore, it is expected that phytoncide effectively reduces the formaldehyde concentration and long-term reduction effect of formaldehyde concentration from 2 to 4.4 years, which is the half-life of formaldehyde.

Table 9 shows the compressive strength and elastic modulus of the concrete composition changed by adding phytoncide.

As shown in Table 9, there is no significant difference in the strength values of the concrete compositions at each age.

However, it can be seen that as the amount of phytoncide incorporated increases, the strength value of the concrete composition is increased by a small amount, which is caused by a decrease in the amount of water to be mixed with the phytoncide (FIG. 5).

6 to 8 show the stress-strain curves of the concrete composition to which phytoncide is added.

The elastic modulus used for the design constants of concrete structures can be determined by determining the stress-strain curves of each material. The compressive strength test can be obtained by measuring the displacement of the specimen with LVDTs installed on both sides of the specimen.

As shown in FIGS. 6 to 8, it can be seen that the slope of the stress-strain curve gradually increases with increasing age.

This is consistent with the characteristics of ordinary concrete, where the modulus of elasticity increases with increasing strength.

Therefore, it can be seen that the concrete composition to which phytoncide is added can sufficiently fulfill its role as a structural material, and the functional effect of phytoncide can be secured.

9 to 12 show the pore structure changes of the concrete composition to which phytoncide is added.

To investigate the internal porosity change of concrete composition with the addition of phytoncide, concrete pore distribution was compared and evaluated by image analysis and mercury porosimetry.

It is estimated that the durability of concrete is greatly affected by the chemical substances and physical pressure penetrating through the pores in the concrete.

However, as shown in Figs. 9 to 12, it is judged that the interior pores of the concrete are hardly affected by the phytoncide contained in the solution state.

Therefore, it can be seen that phytoncide does not affect the durability of the concrete.

The mixing conditions of the concrete were 2%, 4%, and 6% by using phytoncide, respectively.

In order to investigate the applicability of the concrete, the slump of the concrete was fixed in the range of 22 ~ 24cm and the air content was in the range of 5 ~ 7%.

The pore structures in the concrete were investigated at 7, 28, 56 and 91 days using image analysis and mercury porosimetry.

In order to examine the reduction of formaldehyde caused by phytoncide by a test body made of 40%, 45%, 50% water-cement ratio and admixture material, formaldehyde amount Day, 3 days, 6 days, 8 days, 15 days, and 28 days.

In order to investigate the reduction of formaldehyde caused by phytoncide by using the water - cement ratio and admixture materials of 40%, 45% and 50%, formaldehyde emission measurement method The amounts of formaldehyde were examined for ages of 1 day, 3 days, 6 days, 8 days, 15 days and 28 days.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

Claims (4)

delete 5 to 9.5% by weight of water;
15 to 19.5% by weight of cement;
Fine aggregate 30 to 34.5% by weight;
40 to 44.5% by weight of the coarse aggregate;
2-6 wt% phytoncide;
0.5 to 1.5% by weight of fly ash;
The air-clarifying concrete composition according to claim 1, 3. The method of claim 2,
3 to 5% by weight of blast furnace slag;
The air-clarifying concrete composition according to claim 1, delete

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