KR101699012B1 - The soil fill materials using product of industry - Google Patents

Abstract

The present invention relates to a soil filling material using an industrial byproduct that is produced by mixing of: 20 to 50 wt% of blast furnace slag fine powder obtained during pig iron production at a steel mill; 20 to 40 wt% of converter slag dust obtained during refining of the pig iron produced in a blast furnace in a converter; 10 to 20 wt% of fly ash; 5 to 10 wt% of natural anhydrous gypsum; 2 to 5 wt% of desulfurization byproduct generated in a desulfurization process, having a calcium oxide (CaO) content of 40 to 50 wt%, and having a sulfur trioxide (SO_3) content of 20 to 40 wt%, the desulfurization byproduct being a type of wastes generated in a steelmaking process; and 1 to 5 wt% of stimulating agent. According to the present invention, blast furnace slag and fly ash activity is increased based on an alkali activation effect of the converter slag dust. Then, a latent hydraulic reaction and a Pozzolanic reaction based on sulphate stimulation are induced and a large amount of hydration product is generated. As a result, the present invention is given a dense structure and a high level of strength.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001]

The present invention relates to a ground filler using industrial byproducts, and more particularly, to a ground filler which comprises 20 to 50% by weight of fine blast furnace slag generated in the production of pig iron in a steel mill; 5 to 40% by weight of converter slag dust generated when the pig iron produced in the blast furnace is refined in a converter; 10 to 20% by weight of fly ash; 5 to 10% by weight of natural anhydrous gypsum; 2 to 5% by weight of desulfurization by-products generated in the desulfurization process of the waste generated in the steelmaking process and having a calcium oxide (CaO) content of 40 to 50% by weight and a sulfur trioxide (SO ₃ ) content of 20 to 40% by weight; And 1 to 5% by weight of an irritant; and the activity of the blast furnace slag and fly ash through the alkali stimulating effect of the converter slag dust is enhanced to more actively induce the pozzolanic reaction and the latent hydraulic reaction by the sulfate stimulus, Which is excellent in strength and has a dense structure by producing a hydrate product of an industrial byproduct.

In general, deep ground mixing (DSM), deep soil mixing pile (DSM), and deep soil mixing (SCW) techniques are used to drill soft grounds deep into deep layers, Improve the soil by mixing the fire. In this case, firefighting has been generally used by mixing cement and bentonite.

Bentonite is a mineral that is not available as a natural resource in Korea because it is a high-priced material that is dependent on imports. When it comes into contact with salinity, the degree of swelling is remarkable There is a problem that the water-repellency is significantly lowered.

In addition, since cement is produced by mining limestone, which is the main raw material, and calcining it at a high temperature of 1,450 ° C., a large amount of CO 2 gas, which is a main cause of greenhouse gas, is generated in the decarbonation process of limestone, In case of cement, it is not preferable when it is used in soil because it is alkali strong enough to reach pH of 12 or more.

On the other hand, blast furnace slag, which is a byproduct of the steel industry, is produced as a byproduct of about 330 kg per ton of pig iron when blast furnace is manufactured in the blast furnace process, and is discharged from the blast furnace at a high temperature of 1400-2500 ° C.

In this blast furnace slag, about 1% of sulfur is mainly present in the form of calcium sulfide (CaS), which forms sulfide ion upon contact with water, initially having a pale yellow color and generating a harmful substance along with a weak hot smell, This has a limited problem.

In order to solve such a problem, Korean Patent Laid-Open No. 10-2012-0045707 discloses a method for manufacturing eco-friendly building materials using useful microorganisms and blast furnace slag.

The manufacturing method includes the steps of collecting blast furnace slag; Passing the recovered blast furnace slag through a dryer, which is a cylindrical rotary body generating hot wind at a temperature of 100 ° C or higher, to dry for a predetermined time so as to have a water content of 4.0% or less; Adding the dried blast furnace slag to a pulverizer and pulverizing the blast furnace to a particle size of 50 to 250 mesh; And a step of mixing the ground powdered blast furnace slag with a diluted solution of water and a useful microorganism stock solution in a weight ratio of 1: 400 to 1: 1000, thereby producing a blast furnace slag and a useful microorganism It is possible to recycle as eco-friendly building materials through the process.

However, the prior patent has a problem that a useful microorganism must be separately cultivated in order to utilize the blast furnace slag, which is an industrial by-product, and the strength of the building material can be lowered due to the useful microorganism, and the unexpected environment There is a problem that contamination may occur.

It is an object of the present invention to provide a ground filler having low cost and high quality by using industrial byproducts such as blast furnace slag, fly ash and converter slag dust.

In addition, the activity of blast furnace slag and fly ash through the alkali stimulation effect of converter slag dust generated when the pig iron produced in the blast furnace is refined is enhanced to induce the pozzolanic reaction and the potential hydraulic reaction by the sulfate stimulus, It is an object of the present invention to provide a ground filler having an excellent strength and a compact structure by producing a product.

In order to achieve the above object, the present invention provides a ground filler comprising 20 to 50% by weight of fine blast furnace slag generated in the production of pig iron from an iron mill; 5 to 40% by weight of converter slag dust generated when the pig iron produced in the blast furnace is refined in a converter; 10 to 20% by weight of fly ash; 5 to 10% by weight of natural anhydrous gypsum; 2 to 5% by weight of desulfurization by-products generated in the desulfurization process of the waste generated in the steelmaking process and having a calcium oxide (CaO) content of 40 to 50% by weight and a sulfur trioxide (SO ₃ ) content of 20 to 40% by weight; And 1 to 5% by weight of an irritant, to improve the activity of blast furnace slag and fly ash through the alkali stimulating effect of converter slag dust, to actively induce pozzolanic reaction and potential hydraulic reaction by sulfate stimulation, And 2 to 10 parts by weight of the basalt fiber are further mixed with 100 parts by weight of the ground filler.

Further, in the present invention, the fly ash is generated when the fuel is incinerated in a cogeneration power plant and a thermal power plant, and the content of silicon dioxide (SiO ₂ ), aluminum oxide (Al ₂ O ₃ ) and oxidizing iron (Fe ₂ O ₃ ) F grade fly ash having a weight percent or more and C grade fly ash generated in a sintering process of a steel mill and having a calcium oxide (CaO) content of 20 wt% or more.

In the present invention, the converter slag dust has a CaO content of 60 wt% or more and a SiO ₂ content of 15 wt% or more.

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The present invention as described above is manufactured by using industrial byproducts such as blast furnace slag, fly ash and converter slag dust as main materials, and it is possible to reduce the consumption of cement that discharges a large amount of carbon dioxide, thereby being environmentally friendly and reducing manufacturing cost There are advantages to be able to.

In addition, the activity of blast furnace slag and fly ash through the alkali stimulation effect of converter slag dust generated when the pig iron produced in the blast furnace is refined is enhanced to induce the pozzolanic reaction and the potential hydraulic reaction by the sulfate stimulus, It is advantageous in terms of strength and quality by forming a dense structure by producing a product.

1 is an electron micrograph of a ground filler material using industrial byproducts according to the present invention.
Fig. 2 shows the results of particle size analysis of converter slag dust.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a ground filler using industrial by-products according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention is made by mixing blast furnace slag powder, converter slag dust, fly ash, natural anhydrous gypsum, desulfurization byproducts and irritants, and promotes the activity of blast furnace slag and fly ash through the alkali stimulating effect of converter slag dust The present invention relates to a ground filler having a high strength and a dense structure by inducing a pozzolanic reaction and a potential hydraulic reaction by sulfate stimulation to generate a large amount of hydration products.

Blast furnace slag powder is an industrial by-product that is produced during the production of iron and steel mills. It is a suspended material that is melted at high temperature and combined with anodic aluminum oxide (Al ₂ O ₃ ) mixed with impurities of iron ore. It helps to produce ettringite, Contributing to stabilization. Blast furnace slag is to represent the profile of FIG. 3,000 ~ 10,000cm ² / g powder, typically ^{4,000cm 2 / g, 8,000cm 2 /} g, 10,000cm 2 / g 3 jongryu classifying pulverized using a, and powder of say mounds This reactivity is better, but the higher the degree of the powder, the more exponential the energy consumption becomes.

The amount of the blast furnace slag powder is preferably 20 to 50% by weight based on the total weight of the composition. If the blast furnace slag powder is 20% by weight or less, the compressive strength may decrease. When the blast furnace slag powder is more than 50% by weight, It is difficult to secure the initial strength, economical efficiency is lowered, and the use of other materials is reduced, and the overall harmony is broken.

Converter Slag Dust refers to the fine particulate dust generated by electrical dust collection during slag cracking of steelmaking converter slag. Steelmaking furnace slag refers to slag generated when refining pig iron produced in a blast furnace in a furnace. In a converter, oxygen is blown into molten pig iron to oxidize and burn unnecessary components, and the resulting oxide is added with additives such as burnt lime and limestone And combine to produce slag.

Table 1 below is a table showing the chemical composition of the converter slag samples according to the embodiment of the present invention, and the samples were collected from Pohang and Gwangyang.

(%) CaO SiO ₂ Al ₂ O ₃ MgO FeO Fe ₂ O ₃ Total Fe free-CaO C / S Pohang 41 13 6.1 7.8 15 7.5 18 1.4 3.1 The 34 11 6.1 6.8 24 8.0 25 1.7 3.0

Converter slag composed mainly of calcium oxide (CaO) and silicon dioxide (SiO ₂₎ oxide as shown in Table 1. The above and generate CaO and _{Ca 2 SiO 5, Ca 2 SiO} 5 through the cooling process when the below 1,250 ℃ glass Lime (free CaO) is precipitated.

Table 2 below shows the chemical composition of the converter slag dust, and Table 3 shows the results of the heavy metal flux elution of the converter slag dust.

Calcium oxide
(CaO) Silicon dioxide
(SiO ₂₎ Ferric oxide
(Fe ₂ O ₃ ) Sulfur trioxide
(SO ₃ ) Aluminum oxide
(Al ₂ O ₃₎ Magnesium oxide
(MgO) Manganese oxide
(MnO) 60.7 16.4 12.2 5.1 2.6 2.1 0.5

lead Copper arsenic Mercury cadmium Hexavalent chromium draft Non-detection Non-detection Non-detection Non-detection Non-detection Non-detection Non-detection

The above-described converter slag dust contains a large amount of calcium oxide, which can induce the volume expansion due to the hydration reaction and can dry itself by hydration heat generated in the hydration reaction.

As shown in FIG. 2, the average particle size of the converter slag dust is 5 to 10 탆, which is excellent in permeability as a form of ultra-fine particles and has a high penetration property as a super-fine particle grounding material, and thus contains a large amount of free CaO Can be used as stimulants for amorphous materials.

The converter slag dust is preferably 5 to 40% by weight based on the total weight of the composition. The converter slag dust is a particulate to such an extent that powderiness can not be measured. When used as a material, the converter has a large surface area in contact with water, If it is used for the purpose of absorbing water when it is used as a powder without high water content (mud, clay, etc.) in a high natural water content ratio, it can be considerably effective. However, when it is used as a cement milk liquid, It may have a bad influence on expression. Therefore, it is preferable to inject the converter slag dust in the above ratio.

The fly ash is a by-product generated when the fuel is incinerated in the cogeneration power plant and the thermal power plant. In the present invention, the fly ash is generated when the fuel is burned in the cogeneration power plant and the thermal power plant, and silicon dioxide (SiO ₂ ) and aluminum oxide (Al ₂ O ₃ ) F grade fly ash having a content of iron oxide (Fe ₂ O ₃ ) in an amount of 70 wt% or more and C grade fly ash generated in a sintering process of steelworks and having a calcium oxide (CaO) content of 20 wt% or more.

The fly ash is preferably 10 to 20 wt% based on the total weight of the composition, 5 to 10 wt% of the F grade fly ash is mixed, and 5 to 10 wt% of the C grade fly ash is mixed.

If the F-grade fly ash is less than 5 wt%, there is a problem that the initial hydration reaction can not be induced together with the desulfurization by-product. When the F-grade fly ash is more than 10 wt%, the swelling effect is large and the unit water quantity is increased.

If the amount of the C-grade fly ash is less than 5% by weight, there is a problem that the initial strength is difficult to control, and if it exceeds 10% by weight, there is a problem of delaying the condensation.

In the present invention, fly ash is used as a pozzolanic material. Such pozzolanic material is not hydraulic in itself, but calcium hydroxide (Ca (OH) 2) produced by hydration reaction and silicon dioxide (SiO 2) Thereby generating a hydrate. The resulting calcium silicate hydrate (3CaO · Al ₂ O ₃ · 3CaSO ₄ · 3H ₂ O), called Ettringitte, makes the texture of the cured body more dense.

Next, the natural anhydrous gypsum is mixed for initial strength improvement, crack reduction due to drying shrinkage during curing, and etring zite formation, and it is preferable that 5 to 10 wt% is mixed with the total composition weight. If the amount of natural anhydrite is less than 5% by weight, the effect of improving initial strength is insufficient. If the amount is more than 10% by weight, there is a risk of degradation in strength and expansion and destruction due to late expansion.

Next, the desulfurization by-product is a by-product generated in the desulfurization process of the exhaust gas in the pressurized fluidized bed boiler, wherein the content of calcium oxide (CaO) is 40 to 50 wt% and the content of sulfur trioxide (SO ₃ ) is 20 to 40 wt% It is a substance used as early water dehydration and strong alkali stimulant in high function soil.

The amount of the desulfurization by-product is preferably 2-5% by weight based on the total weight of the composition. If the content of the desulfurization by-product is less than 2% by weight, the effect of improving the flowability is insignificant and the effect of irritation is weak. %, There arises a problem that the workability is lowered due to a rapid initial reaction.

The stimulant is for producing a cured product having a dense structure by inducing a sulfate stimulation and a pozzolanic reaction on the desulfurization by-product to generate a large amount of hydration product, and it is preferably 1 to 5% by weight based on the total weight of the composition. If the irritant is less than 1% by weight, the irritant may not act as a small amount. If the irritant is more than 5% by weight, the irritation may be deteriorated due to a rapid initial reaction.

There the pole zero in the present invention can use a water glass or potassium, the water glass is a silica and a silicic acid alkali salt solution and thawing an alkali, typically aqueous solution of sodium silicate _{(2SiO 2 · Na 2 O ·} xH 2 O) and And an aqueous solution of potassium silicate. Such water glass not only induces the activation of the fly ash powder but also has a property of dissolving in water to shorten the curing time of the fly ash fine powder.

Since potassium hydroxide (KOH) can also be used as a curing inducing agent such as water glass and is costly compared to water glass, sodium hydroxide (NaOH) or a mixed aqueous solution of sodium hydroxide (NaOH) or potassium hydroxide May be used.

Next, 2 to 10 parts by weight of the basalt fiber is further mixed with 100 parts by weight of the ground filler according to the present invention.

Basalt fiber is a fibrous natural basalt fiber. It has excellent tensile strength, low density, low thermal expansion, heat resistance, chemical stability, self-lubrication, elasticity and sound absorption. It is resistant to fire and improves tensile strength. have.

If the amount of the basalt fibers is less than 2 parts by weight based on 100 parts by weight of the total composition of the present invention, the amount of the basalt fibers is small, If it exceeds the weight part, there is a problem that an excessive aggregation phenomenon occurs. Therefore, it is preferable to mix within the above range.

The present invention as described above is manufactured by using industrial byproducts such as blast furnace slag, fly ash and converter slag dust as main materials, and it is possible to reduce the consumption of cement that discharges a large amount of carbon dioxide, thereby being environmentally friendly and reducing manufacturing cost The activity of blast furnace slag and fly ash is enhanced through the alkali stimulation effect of converter slag dust generated when refining pig iron produced in blast furnace in a furnace to induce pozzolanic reaction and potential hydraulic reaction by sulfate stimulation, It has a merit of excellent strength and quality by forming a dense structure by generating hydration products.

Examples.

50 weight percent of blast furnace slag, 30 weight percent of converter slag dust, 5 weight percent of F grade fly ash, 5 weight percent of C grade fly ash, 5 weight percent of natural anhydrous gypsum, 3 weight percent of desulfurization by- % Were mixed to form a ground filler using industrial by-products according to the present invention.

Claims (4)

In the ground filler,
20 to 50% by weight of fine blast furnace slag powder produced at the time of manufacturing pig iron in an iron mill;
5 to 40% by weight of converter slag dust generated when the pig iron produced in the blast furnace is refined in a converter;
10 to 20% by weight of fly ash;
5 to 10% by weight of natural anhydrous gypsum;
2 to 5% by weight of desulfurization by-products generated in the desulfurization process of the waste generated in the steelmaking process and having a calcium oxide (CaO) content of 40 to 50% by weight and a sulfur trioxide (SO ₃ ) content of 20 to 40% by weight; And
And 1 to 5% by weight of a stimulant; the activity of the blast furnace slag and the fly ash is improved through the alkali stimulating effect of the converter slag dust to induce the pozzolanic reaction and the potential hydraulic reaction more actively by the sulfate stimulation, By producing the product, it has excellent strength and dense structure,
And 2 to 10 parts by weight of the basalt fiber is further mixed with 100 parts by weight of the ground filler.
The method according to claim 1, wherein the fly ash is generated during incineration of the fuel in the cogeneration power plant and the thermal power plant, and the content of silicon dioxide (SiO ₂ ), aluminum oxide (Al ₂ O ₃ ) and oxidizing iron (Fe ₂ O ₃ ) F grade fly ash having a weight of 70% or more, and C grade fly ash having a calcium oxide (CaO) content of 20% or more which is generated in a sintering process of a steel mill.
The geothermal filling material according to claim 1, wherein the converter slag dust has a CaO content of 60% or more and an SiO ₂ content of 15% or more.
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