KR101120409B1 - Environment-friendly eco-block - Google Patents

Abstract

PURPOSE: An environmentally-friendly echo block is provided to induce hydration and ensure hardening characteristic by adding industrial byproducts like furnace slag and fly ash, and a stimulant like hydroxide or sulfate to an aggregate with a given size. CONSTITUTION: An environmentally-friendly echo block is formed in such a manner that stimulant of 10~14weight% and water of 6~7weight% are mixed with a 10~13mm aggregate of 79~84weight% and steam curing is made. The stimulant consists of inorganic binder of 9~11weight%, meta-kaolin of 0.5~2weight%, and silica of 0.5~1.5weight%. The inorganic binder is formed with industrial byproducts like furnace slag. The meta-kaolin is formed to supplement the coupling force of an echo block. The silica is formed to enhance the moldability of the echo block.

Description

Eco-Block {Environment-friendly Eco-Block}

The present invention relates to an eco-friendly eco-block, and does not use cement in forming an eco-block having a plurality of voids in the block, and uses an inorganic binder using a latent hydraulic material such as blast furnace slag fine powder or a stimulant such as pozzolan. By manufacturing and using the block to manufacture the block, it secures the equivalent compressive strength and durability without using cement, and also has the permeability and water repellent function that cannot be easily realized in the block using cement, and does not use cement. The present invention relates to a technique for producing an ecoblock capable of providing environmental conditions favorable to plant growth.

In the construction of roads, rivers, and coastal water repellents, general cement blocks or ecological blocks in which portland cement is used as a main material are used for the construction of sidewalks or slopes.

As a related art for an ecological block, a permeable block is known from Korean Patent Registration No. 086743. It includes 70 to 80% by weight of aggregate having a size of 8 to 25mm, 70 to 89.5% by weight of blast furnace slag, 5 to 24.5% by weight of metakaolin, and 5 to 24.5% by weight of cement and 0.5 to 8mm. Aggregate having 70 to 80% by weight and blast furnace slag 70.5 to 88.7% by weight, metakaolin 5 to 23.2% by weight, cement 5 to 23.2% by weight, nano silica 0.3 to 18.5% by weight and nano titania 1 to 19.2% by weight The technique which comprises 15-30 weight% of binders is known. That is, most of the related arts related to general cement blocks or ecological blocks are formed by adding ordinary portland cement.

Portland cement added to such block formation is manufactured by mining limestone, clay, and the like, mixing them and firing them at a high temperature to produce clinker and mixing and grinding the clinker and gypsum.

Clinker for portland cement production is generally produced by heating to 1450 ° C. using fossil fuels such as petroleum coal. Therefore, when producing one ton of clinker, about one ton of CO2 is emitted, and 55% of greenhouse gases that cause global warming are caused by CO2, which emits about 8% of total CO2 in the cement manufacturing sector. It is known.

As shown in FIG. 1, since the 19th century, the concentration of CO2 in the atmosphere increased with the increase of cement production, and in 2000, the cement production increased to 1900 × 10 ⁶ tons, and thus the CO2 concentration rapidly increased. It was announced as 350ppm. In other words, it is obvious that global warming will accelerate as cement usage increases.

The existing ecological blocks manufactured using portland cement exhibit strong alkalinity by Ca (OH) 2 generated during the hydration of cement, which shows strong alkalinity of pH 13 or above. There is a problem that strong alkaline leachate is generated, which is a barrier to vegetation settlement and growth of plants.

In addition, the increased use of cement leads to an increase in limestone mining. For example, in order to produce 1 ton of clinker, the amount of limestone must be mined by 1.16 times, which increases the use of limestone resources. will be.

On the other hand, in the production of phosphate fertilizers by processing phosphate ore, a large amount of waste gypsum is generated as by-products generated during phosphate processing. For example, when producing 1 ton of phosphate fertilizer, 5 tons of waste gypsum is produced. Such waste gypsum has strong acidity of pH2 ~ 3. Is occurring.

The waste gypsum is composed of more than 85% CaSO 4 ~ 2H 2 O. Therefore, it is a resource that can be recycled as a slag stimulant through neutralization treatment. However, these resources are left as they are, or are thrown away, causing pollution as well as shortage of loading places.

In addition, in the production of soda ash, a large amount of waste lime having strong alkalinity of pH 12 or more is generated, and the waste lime is mainly composed of CaCO 3 and Ca (OH) 2 CaCl 2. Therefore, the waste lime produced during the production of soda ash can be said to be a resource that can be recycled as a slag stimulant, but these resources are left as it is or are discarded, causing pollution such as water pollution due to strong alkaline leachate and shortage of loading place. Will be.

After all, the conventional ecological blocks including cement blocks are using a large amount of cement, and as the use of cement increases, environmental pollution including air and water increases, and at the same time, there is a problem of resource depletion. The use of cement is a problem that causes obstacles to vegetation settlement and growth of the plant, so there is an urgent need for technology to solve it.

The present invention is to achieve the technical requirements of the production of environmentally friendly eco-block to solve the above problems, to produce an inorganic binder by recycling the industrial by-products without using cement and to form an eco-adding stimulant thereto It is to provide a block and a method of manufacturing the same.

In other words, in forming eco-blocks, no cement is used, and recycled resources without harmful components are recycled to have voids as aggregates and inorganic binders. More than vol, to form a porous block having a characteristic of more than 0.01cm / sec permeability is to provide an eco-friendly ecological block.

In order to solve the above problems, the eco-friendly ecoblock of the present invention adds blast furnace slag and fly ash, which are industrial by-products, to aggregate having a certain size, and induces a hydration reaction by adding a stimulant such as hydroxide or sulfate to have a curing property. .

More specifically, eco-friendly eco-block of the present invention is formed through steam curing by mixing 10 ~ 14% by weight of stimulant and 6-7% by weight of water without adding cement to 79 ~ 84% by weight aggregate having a size of up to 13mm Do it.

The composition contained in the stimulant is to mix 9 to 11% by weight of the inorganic binder recycled industrial by-products, 0.5 to 1.5% by weight of metakaolin for supplementing strength and 0.5 to 1.5% by weight of silica for improving moldability.

In addition, the inorganic binder is formed by mixing the slag powder 35 ~ 55%, sodium aluminum sulphate 15 ~ 20%, gypsum 5 ~ 10%, quicklime 10 ~ 15%, solidified material 15 ~ 20% based on the weight of the inorganic binder It is preferable.

Among the components of the inorganic binder, gypsum employs a waste gypsum having a pH of 2 to 3 generated in the production of phosphate in the fertilizer plant, and quicklime is used to neutralize waste lime above pH12 generated in a soda ash plant.

In forming the ecoblock, by recycling the material without adding cement at all, it not only leads to greenhouse gas reduction by reducing cement production, but also by the strong alkaline leachate of the waste gypsum and the surrounding environment by the strong alkaline leachate of the waste lime. The effect of purifying water pollutants and the like can be obtained.

That is, the present invention by utilizing the waste gypsum and waste lime without the use of cement, the acidity is maintained at pH 9 ~ 10 to prevent environmental pollution and to prevent resource depletion, the compressive strength of 24MPa or more during 28 days curing, It is possible to form an ecological block that maximizes vegetation efficiency by forming a porous block having a porosity of 20% / vol or more and a permeability coefficient of 0.9 cm / sec or more.

Eco-friendly eco-block of the present invention is a product formed through steam curing by mixing 10 ~ 14% by weight stimulant and 6 ~ 7% by weight water without adding cement to 79 ~ 84% by weight aggregate having a size of up to 13mm, cement By recycling the materials without using any of them, it contributes to the reduction of carbon dioxide caused by the reduction of cement production and contributes to the reduction of greenhouse gases in the earth, and by recycling the waste gypsum and waste lime, it prevents the water pollution by the leachate generated from the waste gypsum and waste lime. At the same time, it prevents resource depletion and increases the compressive strength of 24MPa, porosity of 20% / vol, and permeability of 0.01cm / sec. Over 28 days by adding high strength stimulant composed of inorganic binder, metakaolin and silica. It is formed by the block will produce the effect that can form the ecological block to maximize the vegetation efficiency.

1 is a diagram showing the relationship of atmospheric carbon dioxide concentration according to the world cement production,
2 is a view showing an eco-friendly eco-block manufactured according to an embodiment of the present invention.

Eco-friendly ecoblock according to the present invention is formed through steam curing by mixing 10 ~ 14% by weight of the stimulant 10 ~ 14% by weight and water 6 ~ 7% by weight without adding any cement to 79 ~ 84% by weight aggregate having a size of 10 ~ 13mm Do it.

The magnetic pole material is 9 to 11% by weight of the inorganic binder recycled industrial by-products such as blast furnace slag, 0.5 to 1.5% by weight of metakaolin to supplement the binding force of the eco-block and 0.5 to 1.5 weight of silica to improve the moldability of the eco-block The percentage is set in percent.

And the inorganic binder contained in the magnetic pole material is based on the weight of the inorganic binder slag fine powder 35 ~ 55%, sodium aluminum sulphate 15 ~ 20%, gypsum 5 ~ 10%, quicklime 10 ~ 15%, solidified material 15 Form by mixing 20%.

Mixing of these components is to put each component into the mixer and mix in a quick time by the steel mixing method so that the inorganic binder can be evenly attached to the aggregate, it is preferable to use a horizontal mixer or a fan mixer in the mixer.

In this way, the blended material in the mixer is discharged within 5 minutes to be injected into the mold, and the mold is mounted in a molding apparatus so that the injected material is generally flat to shape the material and supply steam to cure.

It will be described with respect to the numerical range defining each of the composition of the eco-friendly eco-block.

First of all, aggregate is used in the size of 10 ~ 13mm. If the aggregate size is less than 10mm, the block becomes dense structure and the permeability decreases. The problem is that the strength is reduced because the bond strength between the aggregates is reduced. Therefore, the size of the aggregate is limited to the 10 ~ 13mm range.

And the reason for limiting the weight ratio occupied by the aggregate in the eco-friendly ecoblock of the present invention to 79 ~ 84% by weight, when the weight ratio occupied by less than 79% by weight of the eco-block coating properties and bonding force is improved, but the voids are filled with water permeability This is because there is a disadvantage in that the weight ratio is more than 84% by weight, the weight ratio of metakaolin or silica to be blended is relatively low, because the metakaolin or silica is difficult to coat the aggregate as a whole has a disadvantage that the bond strength is lowered. .

In the composition of the eco-friendly eco-block, the inorganic binder in the stimulator consisting of inorganic binder and metakaolin and silica comprises 10 to 14% by weight based on the weight per unit volume of the eco-block composition, based on the weight of the stimulant only Add so that the weight per unit volume is 86-90%.

The inorganic binder is a slag and sodium aluminum sulphate which can be manufactured at room temperature without using high temperature firing process by using alkaline and gypsum industrial waste as a stimulant of latent hydraulic or pozzolanic materials such as slag fine powder and sodium aluminum sulphate sodium sulfate and aluminum sulfate. It is based on the activation mechanism. It is preferable that the fine slag powder adopts blast furnace slag.

The activation mechanism is Ca + ², Mg contained in the network structure as the irregular three-dimensional chain bonds of the amorphous particles are cut in accordance with the hydration reaction induced by the addition of a stimulant such as hydroxide or sulfate to the amorphous material such as slag powder and fly ash Modified ions such as + ² and Al + ³ are used to elute to have hardening properties.

Therefore, the blast furnace slag can be easily eluted due to the alkalinity of Si, Al ions as the powder degree is improved, the bonding strength is improved, the production rate of zeolite in the block is increased and Ca ions in the product to provide CSH in the block Since it plays a main role of producing a product in a short time, it is preferable to use a powder having a powder degree of 8000 cm 2 / g to 9000 cm 2 / g or more.

In addition, Ca ions generate Ca (OH) ₂ to increase the pH in the block to alkalinize and assist the quicklime to break down the film surrounding the blast furnace slag to promote the hydration reaction and the formation of the secondary product zeolite. In this role, it promotes bonding to have curing properties.

The slag powder included in the inorganic binder of the present invention is blast furnace slag, and the blast furnace slag is formed to have a weight of 35 to 55% based on the weight of the inorganic binder, and when less than 35% is added, it is sufficient in the eco block. If CHS formation is not possible and exceeds 55%, the amount of Ca (OH) ₂ is increased in each block due to the excessive amount of addition, and cracks are generated on the surface of the block due to the heat generated during the generation of Ca (OH) ₂ . This is because it lowers the strength and damages the appearance. It is preferable to mix in the said weight ratio.

Sodium aluminum sulphate (sodium sulfate, aluminum sulphate) included in the inorganic binder applied in the present invention is mixed to 15 to 20% based on the weight of the inorganic binder, because the sodium aluminum sulphate is less than 15% When added, the aluminosilicate is less easily dissolved because Ca + ², Mg + ², Al + ³, etc. contained in the network structure are not easily broken because irregular 3D chain bonding of amorphous particles is not easy due to the hydration induction. It is difficult to form the geopolymer, which is a gel structure, and the curing property is lowered. On the contrary, when the ratio exceeds 20%, the gas activity due to the pozzolanic reaction is high. desirable.

In addition, the gypsum included in the inorganic binder applied in the present invention mixes 5 to 10% by weight based on the weight of the inorganic binder, and quicklime is to mix 10 to 15%. Gypsum mixed with the inorganic binder is a sulphate mineral having a chemical structure of CaSO ₄ 2H ₂ O, which is formed by hydration of pumice gypsum by surface water and groundwater, and includes Si-O or Al- in blast furnace slag and sodium aluminum sulphate. It acts to quickly destroy the bond of O, Al and Si ions eluted from the blast furnace slag reacts with each other to form CSH or CAH hydrate or to generate a zeolite, and the quicklime contained in the inorganic binder is CaO It increases the pH with the composed alkali and destroys the film surrounding the blast furnace slag to induce a hydration reaction.

Therefore, when the weight ratio of the gypsum and quicklime is less than the above range, it acts as an impurity in the block, so that the phenomenon of increase in strength does not occur, and when it is added above the above range, the amount of blast furnace slag and sodium aluminum sulphate added is relatively It becomes less, and it is impossible to exert sufficient bonding force in the block, resulting in a decrease in compressive strength.

In particular, the gypsum employs waste gypsum with a pH of 2 to 3, which is generated during the production of phosphoric acid in the fertilizer plant, and quicklime is used to prevent water pollution due to waste gypsum and leachate from waste lime by neutralizing the waste lime above pH12 generated in the soda ash plant. To help.

Metakaolin for forming the stimulating material of the eco-block in the present invention is 0.5 to 1.5% by weight relative to the total volume of the eco block, 5 to 7% based on the weight per unit volume of the stimulating material consisting of inorganic binder and metakaolin and silica To be added.

The metakaolin is made of concrete stimulation material by specially treating kaolin, which is widely used in refractory, rubber, paint, chemistry, and pharmaceuticals, and reacts with Ca (OH) ₂ produced by blast furnace slag and water glass to react with pozzolanic. It is a raw material that exhibits strong solidity and exhibits very good reactivity as a geopolymer material, and contains a large amount of amorphous glass phase as well as blast furnace slag, which is very advantageous for forming a three-dimensional network structure of Si-O-Al. In addition, since the metakaolin has the effect of inhibiting the rapid fastness of water glass and blast furnace slag, the addition of the appropriate amount of metakaolin has a reaction delay effect in addition to the geopolymer reaction. Most important of all.

When the metakaolin has a powder of less than 8000 cm 2 / g in the short term, it lowers the production of ettringite, which is produced during the hydration of the eco-block, thereby decreasing the initial strength and reducing the reactivity with calcium hydroxide, thereby inhibiting the pozzolanic reaction. This results in a problem that the compressive strength and durability are poor, and when the powder strength exceeds 10000㎠ / g, the adhesion to the aggregate is increased, and the internal structure of the hardened body is excessively dense due to the high-strength expression, resulting in permeability and water absorption. Done. Therefore, in the present invention, by using metakaolin in the powder degree of 8000 cm 2 / g ~ 10000 cm 2 / g, the compressive strength expression and adhesion improvement and winter block surface protection effect is excellent.

In addition, metakaolin causes a strong pozzolanic reaction by reaction with Ca (OH) ₂ produced by blast furnace slag and water glass, which is a silica mixture, which itself is not hydrophobic but combines with lime to form an insoluble silica compound. When contacted with water, trace amounts of CaO and SiO ₂ are eluted to form amorphous silica and alumina hydrate together with insoluble dense hydrates on the surface of the particles, and when such pozzolanic is mixed with portland cement, Ca (OH) ₂ and pozzolane react to increase the proportion of CSH in the hydrated cement solidified while consuming Ca (OH) ₂ . Inclusion of such pozzolanic in the composition of the ecoblock of the present invention increases workability, lowers the heat of hydration, and also improves the initial strength, and improves the water tightness and resistance to erosion of sulfate ions.

And the silica constituting the stimulator of the present invention is added 0.5 to 1.5% by weight relative to the total weight of the unit of the eco block, 5 to 7% based on the weight per unit volume of the stimulator consisting of inorganic binder, metakaolin and silica Do it.

Such silica is a silicate acrylate composed of SiO ₂ , which is naturally crystallized or amorphous in quartz, quartz, agate, agate, flint, silica sand, phosphate stone, tartar, etc. In the present invention, the powder is 3100 ~ 3300 ㎠ / g, purity Use more than 90%. This improves the optimum workability (slump), finishability (easy to finish), formability (surface state) and high gas activity by the pozzolanic reaction within the above ranges, so that the powder and purity can be cracked due to the initial heat of hydration control. This is because the suppressing function is excellent.

In other words, if the purity is less than 90%, the slump becomes rough, the strength is lowered, the pump pressure is also lowered, the air volume is poor, the bleeding water is excessively generated, the latans are generated, and the powder degree is 3100 cm 2 / g. If it is less than, workability, finishability, moldability is poor, if it exceeds 3300 cm 2 / g slump is poor, material separation phenomenon occurs.

In summary, the composition ratio of the components constituting the eco-block in the present invention described above, as shown in Table 1 below, in the total weight of the eco-block, the stimulator comprises 10 to 14% by weight, the inorganic binder and metakaolin included in the stimulator And silica is to be composed in a ratio of 86 ~ 90%: 5 ~ 7%: 5 ~ 7% based on the weight ratio of the stimulant.

division
aggregate water Stimulant Inorganic binder Metakaolin Silica sub Total Based on total weight
(weight%) 79-84 6 ~ 7 9 ~ 11 0.5-1.5 0.5-1.5 10-14 By weight of magnetic pole
(%) - - 86-90 5 ~ 7 5 ~ 7 -

As a specific embodiment of the composition ratio of the components forming the eco-block of the present invention, the aggregate is adopted to have a size of up to 13mm, 1645kg / m ³ equivalent to 82% by weight as shown in Table 2 , 131kg / m ³ per unit volume equivalent to 6.5% by weight of water, 240kg / m ³ corresponding to 12% by weight of the magnetic pole material, and then mixed the steel in a horizontal mixer or a fan mixer to the aggregate to the aggregate. Evenly attached, the finished material is discharged within 5 minutes to be injected into the mold, the mold is mounted in the molding apparatus so that the injected material is generally planar to shape and supply the steam to cure.

And compressive strength, porosity and permeability when an amount of the inorganic binder and metakaolin and silica included in the magnetic pole is less than or exceeded in the range of 86 to 90%: 5 to 7%: 5 to 7%. In order to find out to be added as in Examples 1 to 3 corresponding to the threshold of each composition constituting the stimulant.

Specifically, Example 1 is based on the weight per unit volume of the stimulant 86% (258kg / m ³ ), inorganic binder, metakaolin 7% (21kg / m ³ ), silica 7% (21kg / m ³ ) was added, Example 2 adds an inorganic binder 85% (255 kg / m ³ ), metakaolin 7.5% (22.5 kg / m ³ ), silica 7.5% (22.5 g / m ³ ), Example 3 is 91% (273 kg) inorganic binder / m ³ ), metakaolin 4.5% (13.5kg / m ³ ), silica 4.5% (13.5g / m ³ ) was added to form an eco block through steam curing at an ambient temperature of 15 ℃ or less.

As a result, as shown in Table 2 below, after 7 days or 28 days of curing, the compressive strength, porosity, and permeability are different for each of the embodiments, and when 28 days of curing were used, the composition ratio of the stimulant was 86%: 7%: 7%. It has the best strength of 25.4MPa, porosity of 20.8% / vol and permeability coefficient of 0.98cm / sec.

However, if the stimulator composition is outside the numerical range defined in the present invention, that is, the composition ratio of the stimulator is 85%: 7.5%: 7.5% and 91%: 4.5%: 4.5% compressive strength and porosity and permeability coefficient Are all lower than the 86%: 7%: 7% of the overall characteristics of the eco-block is deteriorated.

Example Stimulus composition ratio
(Inorganic binder%: Metakaolin%: Silica%) Compressive strength
(MPa) Porosity
(% / vol) Permeability coefficient
(cm / sec) 7 days 28 days 7 days 28 days 7 days 28 days One 86: 7: 7 18.2 25.4 19.2 20.8 0.85 0.98 2 85: 7.5: 7.5 17.2 23.0 13.2 18.0 0.68 0.75 3 91: 4.5: 4.5 15.2 20.4 18.5 19.5 0.83 0.95

Therefore, by limiting the composition ratio of the inorganic binder, metakaolin and silica of the stimulant composition of the present invention to 86 to 90%: 5 to 7%: 5 to 7%, as shown in FIG. , 28 days curing compressive strength of 24MPa or more, porosity 20% / vol or more, formed by a porous eco block having a permeability coefficient of 0.9 cm / sec or more to provide a durable and durable eco-friendly ecological block .

The terminology or words used in the specification and claims of the present invention described above are based on the principle that the inventor can appropriately define the concept of the term in order to explain the invention in his best way. It should be interpreted as meanings and concepts in accordance with the spirit, and various substitutions, modifications, and alterations are possible within the scope without departing from the technical spirit of the present invention will be apparent to those of ordinary skill in the art. will be.

Claims (5)

In eco-friendly ecoblock,
The eco-block is formed by steam curing by mixing 79 ~ 84% by weight aggregate having a size of 10 ~ 13mm, 10 ~ 14% by weight of the stimulant and 6 ~ 7% by weight of water,
The stimulating material is 9 to 11% by weight of the inorganic binder recycled industrial by-products including blast furnace slag, 0.5 to 1.5% by weight of metakaolin to supplement the binding force of the eco-block and 0.5 to 1.5 silica to improve the moldability of the eco-block Composition by weight%, the inorganic binder contained in the magnetic pole material is based on the weight of the inorganic binder slag fine powder 35 ~ 55%, sodium aluminum sulphate 15 ~ 20%, gypsum 5 ~ 10%, quicklime 10 ~ 15%, Eco-friendly eco-block, characterized in that formed at a rate of 15 to 20% of the fire. delete The method of claim 1,
The metakaolin included in the stimulant is used in the powder degree of 8000 ~ 10000cm 2 / g, the silica is 3100 ~ 3300cm 2 / g, the eco-friendly eco block, characterized in that using a purity of 90% or more. The method of claim 3,
The gypsum used waste gypsum having a pH of 2 ~ 3 generated in the production of phosphoric acid in the fertilizer factory, the quicklime is an eco-friendly eco-block, characterized in that to reuse the waste lime of pH 12 or more generated in the soda ash factory after neutralization treatment. The eco-friendly eco-block according to any one of claims 1, 3, or 4, wherein the inorganic binder contained in the stimulator is an blast furnace slag powder having an alkali and gypsum-based industrial waste having a powder level of 8000 cm 2 / g to 9000 cm 2 / g. And using a latent hydraulic or pozzolan material such as sodium sulfate or aluminum sulfate, which are sodium aluminum sulfate, based on slag and sodium aluminum sulfate activation mechanism at room temperature.

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