KR20160074900A - Vegetation block using ilite as aggregate and its manufacturing method - Google Patents

Abstract

Provided is a vegetation block formed by utilizing illite as aggregate and a method of manufacturing the same. The vegetation block includes 20-30 wt% of blast furnace slag, 10-15 wt% of water, 2-5 wt% of alkali stimulant, 40-60 wt% of coarse aggregate, 3-5 wt% of illite, 1-2 wt% of zeolite, and 1-3 wt% of titanium dioxide. The coarse aggregate is first deposited and a crushing work is performed. Remaining materials are stirred and put to maintain porosity. The alkali stimulant includes at least one of calcium hydroxide, sodium hydroxide, and potassium hydroxide. The coarse aggregate is crushed in size of 20 mm or less so that a user can walk without a hitch. Compositions including the blast furnace slag, the alkali stimulant, and the illite are distributed into a plurality of local parts to be deposited.

Description

{Omitted} A vegetation block using ilite as an aggregate and a manufacturing method thereof

The present invention belongs to the technical field of a vegetation block using ilite as an aggregate.

Greenhouse gas reductions are expected to bring new consensus on international reduction targets, and each country will be expected to fulfill its emission reduction obligations at the national level. The areas where such environmental problems arise are largely classified as industrial, transportation and construction The construction sector is known to occupy about 38% of the total industrial CO2 emissions. Therefore, it can be said that the impact on the global environment and human health and welfare is significant. At present, the development of science and technology and the economic growth require the development of new materials and the improvement of performance in the field of building materials.

The demand for cost reduction and quality improvement of building materials due to opening of WTO and domestic construction market is also increasing. The non-sintered cement refers to non-sintered cement (NSC) which is mainly composed of clay minerals and alkali. (AAS), which produces hydraulically cured products by stimulating with alkali the granulated blast furnace slag (GBFS), which is a latent hydraulic material, and an alkaline activated slag (AAS). Blast furnace slag, which has been used as raw material and concrete admixture for cement in the past, is a by-product produced during the steel making process and it does not require burning process of clinker during production process. Therefore, it can reduce the burden of environmental problems, It is much more advantageous when compared to Portland cement.

          When blast furnace slag is in contact with water, it hardens due to the opacifying acid film on the particle surface. At this time, the role of stimulant by strong alkali is needed to induce the reaction. On the other hand, most of the conventional non-sintered cement technology uses high-priced fine powder admixture and it is not economical due to use of expensive alkali stimulant in large quantity. When using blast furnace slag fine powder, it is difficult to secure initial strength by potential hydraulic characteristics .

Referring to the related patent publication No. 10-2012-0078273 (filed on December 31, 2010), nano-technology is introduced into blast furnace slag to produce non-fired cement mortar using nano slag and alkali stimulant, The amount of the alkali stimulant used for producing the non-fired cement mortar can be reduced, and the production cost can be reduced due to the reduction of the use amount of the alkali stimulant. In addition, It has been suggested that useful non-fired cement mortar can be provided.

However, in order to improve the purification performance, the inclusion of materials is lacking. In view of the above, the present invention proposes a vegetation block having excellent adsorption performance by placing Illight and a functional admixture together.

Patent Publication No. 10-2012-0078273 (filing date: December 31, 2010)

Conventional permeable concrete technology to prevent urban desertification and disasters caused by heavy rain has caused groundwater contamination due to the use of highly alkaline cement material. This technology is applied to prevent cement by using construction method and permeable concrete manufacturing technology. It is eco-friendly because it is not environment friendly. It is equivalent to CO2 reduction technology. Also it contains zeolite and titanium dioxide, which have adsorption performance and decomposition of heavy metal, To the vegetation block.

The slurry of the present invention is prepared by mixing 20 to 30% of blast furnace slag, 10 to 15% of water, 2 to 5% of alkali stimulant, 40 to 60% of coarse aggregate, 3 to 5% of daily light, 1 to 2% of zeolite, %, The method comprising the steps of:

The coarse aggregate is first poured into the compaction work

The remaining material is maintained in porosity by stirring and pouring,

The alkali stimulant is characterized by containing at least any one of calcium hydroxide, sodium hydroxide and potassium hydroxide

The coarse aggregate has a size of aggregate of 20 mm or less and performs preliminary compaction so that it is not difficult to walk

The composition including the blast furnace slag, the alkali stimulant, and the ilite is dispersed in a plurality of local sites and is poured

A vegetation block containing Illight is presented.

According to the present invention, the non-sintered cement technology prevents groundwater contamination due to the toxicity and high alkalinity of the cement, and provides a technique for adsorbing contaminants by porous ilites and zeolites, There is an advantage of continuously adsorbing and decomposing pollutants by the technology of decomposing contaminants by oxide ions.

1 is a schematic view of a pitcher block including a light.
Fig. 2 is a view showing voids of porous concrete.

In order to achieve the above object, the present invention provides a method for producing a steel slag comprising 20 to 30% of blast furnace slag, 10 to 15% of water, 2 to 5% of alkali irritant, 40 to 60% of coarse aggregate, 3-5% of ailite, And 1 to 3% of titanium dioxide. It is preferable that the coarse aggregate among the above materials is poured first and then the compaction is proceeded, and the remaining material is stirred and poured to maintain the porosity.

Non-sintered cement technology prevents groundwater contamination due to toxicity and high alkalinity of cement. It also absorbs pollutants by porous Il light and zeolite, and also decomposes pollutants by zeolite potential and superoxide ion of titanium dioxide The technology has the advantage of continuous adsorption and decomposition of contaminants.

According to the present invention, the non-sintered cement technology prevents groundwater contamination due to the toxicity and high alkalinity of the cement, and the technique of adsorbing contaminants by porous ilite and zeolite, and the zeta potential of ilite and the superoxide ion , It is advantageous to continuously adsorb and decompose pollutants.

In the present invention, a porous vegetation block utilizing ilite is proposed. As shown in Figs. 1 and 2, porous concrete capable of permeability is developed. Based on this, The technology required for

The technical form of the permeable block is composed of surface layer, middle layer and bottom layer as shown in the table below. In addition to developing individual technologies for each layer, it is necessary to improve the performance of the block and to develop the shape of the bottom layer This paper proposes a form that can improve the adhesion performance to the ground and proceed without any leveling work.

division Main Content Surface layer
Development Replace sunlight to ensure color and durability Middle layer  Determination of optimum mixing ratio suitable for permeability block Setting target permeability with hardness and strength Bottom
(Water purification) Ultimate and external influent passing through ilite and permeable layer is finally purified Production and Construction
System
Development Simplification of the construction method through improvement of the block performance and development of the bottom layer type through development of the joining method of each layer of the permeable block

The blast furnace slag and the alkali stimulant are preferably 8 to 10: 1, and the alkali stimulant is preferably a mixture of calcium hydroxide, sodium hydroxide and potassium hydroxide.

Also, it is preferable that the aggregate is preliminarily compacted so that there is no problem in walking with aggregates of 20 mm or less, and it is preferable that the functional admixture composition including blast furnace slag, alkali stimulant and ilite is dispersed and laid rather than spreading it in one place.

       Illight is a very common secondary minerals in heterogeneous sedimentary rocks, open-ended alterations and neutral-acidic rocks and is well formed in K + -rich environments, which can be easily formed from feldspar or mica and precipitated directly from the thermal aqueous solution. Illyite is the most abundant clay minerals in shale and sandstone, along with kaolinite and ilite-smectite mixed-bed minerals.

        Especially, Illight is frequently formed from smectite in low temperature environment. Therefore, Illite clay has a complicated structure in which Smectite layer and Illite layer are regularly mixed along c axis direction. In this case, it is called a mixed layered mineral of ilite-smectite, or a mixed layered structure. In the general sedimentation environment, clay minerals start from smectite, I / S mixed layer minerals, and ultimately migrate to ilite as property proceeds. This transition is closely related to the K + supply and reaction temperature. In particular, the characteristics of I / S mixed bedded minerals are closely related to ilite along with smectite, so rarely among the clay minerals, which have been subjected to asymmetric attention for a long time as illite.

        Especially, the crystallinity of Illight is used as a very important basis in interpreting the property action phase. It is also possible to estimate the temperature by using it. Particularly, the clay minerals formed at the surface of the earth and the low temperature environment transition to a more stable form as the temperature increases, and the crystal growth occurs.

         Since most clay minerals including ilite exist as quasi-stable minerals in a low temperature environment, thermodynamic information is very limited, and the chemical composition is also complicated and varied in substitution relation and composed of various kinds of solid solutions. On the other hand, understanding this point can infer the physico-chemical characteristics of clay minerals, and is also applicable to geological environmental analysis and industrial applications.

The crystallinity of ilite is variable, and the physical state of particles is not constant. Therefore, it is difficult to specify uniformly the physicochemical characteristics. For this reason, it is difficult to find the physicochemical parameters of the well-established Ilwright in the literature, and it is desirable to directly measure the physical properties according to each situation.

Claims (1)

The slurry of the present invention is prepared by mixing 20 to 30% of blast furnace slag, 10 to 15% of water, 2 to 5% of alkali stimulant, 40 to 60% of coarse aggregate, 3 to 5% of daily light, 1 to 2% of zeolite, %, The method comprising the steps of:
The coarse aggregate is first poured into the compaction work
The remaining material is maintained in porosity by stirring and pouring,
The alkali stimulant is characterized by containing at least any one of calcium hydroxide, sodium hydroxide and potassium hydroxide
The coarse aggregate has a size of aggregate of 20 mm or less and performs preliminary compaction so that it is not difficult to walk
The composition including the blast furnace slag, the alkali stimulant, and the ilite is dispersed in a plurality of local sites and is poured
Vegetation block containing sunlight.

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