KR20020070954A - Scrapped material used building materials - Google Patents

Abstract

PURPOSE: Construction materials using industrial and building wastes are provided, which has high strength, waterproofing, easy handling and construction, and less weight compared to conventional products. CONSTITUTION: The construction materials comprise the components of: 10-15% of one or more of paper sludge, slag, waste gypsum, sand, dust, building waste, etc.; 80-85% of solidifying agent which is mixed with mine dust, ash, waste hydraulic cement(waste gypsum or waste lime) and cement in a ratio of 1 : 1.5 : 1 : 1.5; 4-6% of water; and optionally coloring agent. The amount of each component is based on the total weight of construction materials.

Description

Construction materials using waste at work {SCRAPPED MATERIAL USED BUILDING MATERIALS}

The present invention relates to building materials using workplace wastes, and more particularly, to building materials using workplace wastes that are mixed with solid waste materials, such as waste gypsum, waste lime, building waste materials, and recycled.

In general, workplace wastes are by-products from apartments, soda ash and fertilizer manufacturing plants, rubber raw materials manufacturing plants, and paper mills. The treatment of these workplace wastes is currently being relied on for landfilling, incineration or yardage.

However, these workplace wastes have a low specific gravity and odors and dusts are generated, which causes problems in polluting the surrounding environment.

In addition, in the case of landfills, waste disposal by landfill is considerably difficult considering the difficulty of securing landfill sites and the damage caused by landfills, and most workplace wastes can be recycled in any form.

The present invention is to solve this problem; An object of the present invention is to provide a building material using the workplace waste that can be produced at a lower cost while preventing the waste of resources and environmental pollution by recycling the workplace waste as building materials.

Figure 1 shows the components of the building materials using the workplace waste in accordance with the present invention.

Figure 2 shows a brick produced through the building material according to the invention.

Figure 3 shows the interblocking produced through the building material according to the invention.

Figure 4 shows the interior and exterior materials produced through the building material according to the invention.

Figure 5 shows the landscape stone produced through the building material according to the invention.

* Description of the symbols for the main parts of the drawings *

1..Building materials

2..Workplace Waste

3..Solids

4..water

The present invention for achieving this object is;

In building materials using workplace waste;

Workplace wastes of 35 to 40% of the total weight of building materials, including waste lime, paper slush, building waste materials, slag, blast furnace slush, sand, combustibles, dust, soils, and clay and; 55 to 60% of the total weight of the building material, and is prepared from a mixture of light ash, incineration ash, wastewater limestone, and cement; Characterized in that the water provided in 4 ~ 6% of the total weight of the building material is mixed.

In addition, the solid agent is characterized in that the mixture of light bonsai, incineration ash, wastewater limestone, cement in a ratio of 1: 1.5: 1: 1.5.

In addition, the solid is further mixed with aggregate to enable concrete pouring; The light bonsai, incineration ash, wastewater limestone, cement, and aggregate are generally mixed in a ratio of 1: 1.5: 1: 1: 1.5: 3.

In addition, the wastewater hard lime of the solid agent is characterized in that the waste gypsum or waste lime.

In addition, the building material is characterized in that the colorant is further mixed to exhibit a predetermined color.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 1, the building material (1) using the workplace waste according to the present invention is mixed with the workplace waste (2), such as construction waste material, slag, blast furnace slush, and the workplace waste (2) to solidify it The solid agent 3 and the water 4 which are input in the mixing process of this solid agent 3 and workplace waste 1 are mixed materials in an appropriate ratio.

Workplace wastes (1) are prepared from 10 to 15% of the total weight of building materials (1), which are generated from waste lime, paper slush from paper mills, waste materials from slag, slag and steel mills. Blast furnace slush, sand used in the workshop, burning materials, dust, soils, clay, etc. These workplace wastes (2) are used alone or in combination of at least two or more, and mixed with the solid agent (3) as it is, or properly ground and mixed.

The solid agent (3) is provided with 80 to 85% of the total weight of the building material (1), which is a mixture of light ash, incinerator, wastewater limestone, cement and the like. The solid agent (3) is mixed with water (4) and the workplace waste (2) to solidify it, for this purpose, such as light ash, incineration ash, wastewater limestone, cement is generally 1: 1.5: 1: 1: 1.5. It is mixed at the ratio of. At this time, the existing workplace waste (2) is less viscous when reacting with the cement, the adhesive strength is reduced, the viscosity is increased here by mixing wastewater and lime.

That is, 100 ℃ of light dust, which is a fine dust generated during the surface processing of marble or the extraction of iron, incineration ash that is left after burning household waste or industrial waste, and wastewater hard lime, which is a by-product generated from soda ash process, respectively. After the above-mentioned heating is completed to completely remove moisture, these particles are pulverized into fine powders.

When the ratio of light bonsai: incineration ash: wastewater limestone: cement is mixed in a ratio of 1: 1.5: 1: 1: 11.5, solid agent (3) is completed. At this time, the wastewater limestone is waste gypsum or waste lime. In addition, when the admixture, which is a raw material of cement, that is, sell loss (loss) with respect to the light bonsai 1, is further mixed at a ratio of 0.2, the function of the solid agent 3 is further enhanced.

Since the mixing ratio of the site waste (2) and the solid agent (3) is the most important in the manufacture of the building material (1) using such a site waste (2) composed of such a mixture, the site waste (2) and the solid agent (3) It is most preferable to prepare them separately and then mix them.

Next, the method of using the building material composed of such a mixture and the effects thereof will be described.

First, the powdered solid agent 3 and the workplace waste 2 are mixed evenly in the form of powder, incineration ash, wastewater limestone, cement, etc. in an appropriate ratio. At this time, the solid agent 3 mixes 80 to 85% with respect to the total weight of the building materials 1, and the workplace waste 2 mixes 10 to 15% with respect to the total weight of the building materials 1.

Subsequently, if 4-6% of water (4) is mixed again with the solids (3) and the site wastes (2) mixture to the total weight of the building materials, the building materials (1) mixture becomes viscous.

When the building material 1 having such viscosity is put into a mold having a predetermined shape and taken out, a molded article (block) having a predetermined shape is produced. At this time, a molded article having high compressive strength and tensile strength is produced without applying high pressure to the mold.

And drying the molded article produced in a predetermined shape is completed a block using the high site and waste strength of the workplace. At this time, the molding may be artificially dried by steam or low heat, but may be cured after 3 hours in a natural state to have a predetermined strength.

Molded products using such workplace waste (2) has a strong strength, the weight is significantly lighter when adding paper slush can significantly reduce the transportation cost, easy construction, excellent fire resistance and strong impact.

Next, the effects of the present invention will be described once again with reference to Tables 1 and 2.

(Table 1). As a result of applying the waste lime brick produced by the applicant using the building material according to the present invention to the Industrial Technology Testing Institute, the compressive strength was measured.

Compression Break Load (N) Remarks Waste Lime Brick # 1 1,066 1.Point distance: 130 mm2.Pressing particle: Φ26 Waste Lime Brick # 2 1,047 1.Point distance: 130mm2.Pushing particle: Φ26

* Test Method-Measure the compressive breaking load by loading the vertical compressive load at 5 mm / min speed through the universal testing machine.

* Test conditions-temperature; 24 ℃, Humidity: 61% HR

(Table 2). As a result of applying the waste lime brick produced by the applicant using the building material according to the present invention to the Industrial Technology Testing Institute,

Test Items result Test Methods Hazardous Substance Elution (ppm) Pb Not detected Waste Process Test Method CD Not detected Cr ⁶⁺ 0.005 Cu Not detected As Not detected Hg Not detected CN Not detected

* Elution condition: [Sample 1: distilled water 10] × room temperature × 24 hours

As shown in (Table 1) and (Table 2), it can be seen that the waste lime brick using the workplace waste according to the present invention has a considerable strength, and little harmful substances are also eluted.

In addition, the building materials (1) using the workplace waste (2) can be used for concrete pouring by further mixing the aggregate with the solid agent (3). That is, after mixing the mixture of light ash 1: incineration ash 1.5: wastewater pumice lime 1: cement 1, 5: aggregate 3 to produce a solid agent (3), the waste (2) and water (4) of the workplace in the ready-mixed vehicle When mixed, it can be widely used in construction site for covering soil or road construction.

In addition, the building material (1) using the workplace waste (2) according to the present invention can treat the surface in any form can be used in a wide range of fields. In particular, when a small amount of a colorant having a predetermined color is added to the building material 1 in which the workplace waste 2, the solid agent 3, and the water 4 are mixed, the molded article also has a predetermined color.

Actually, building materials using workplace waste can be used in various fields such as brick (see FIG. 2), interblocking (see FIG. 3), interior exterior materials (see FIG. 4), landscape stone (see FIG. 5), and the like.

As described in detail above; According to the building material using the workplace waste according to the invention; When the solid waste and water are mixed in the ratio of workplace waste materials such as building waste materials, slag and blast furnace slush at an appropriate ratio, the building materials are manufactured with excellent strength, light weight, easy handling and construction, and waterproof effect. Accordingly, there is an effect of preventing waste of resources and environmental pollution by recycling workplace waste into building materials, and also has the advantage of manufacturing building materials at a lower cost. In addition, the solid agent has the advantage of excellent fire resistance and excellent insect repellent effect because the main component is made of light powder, incineration ash, waste stone cycle, there is an advantage that can be produced in a variety of colors by adding a colorant.

Claims (6)

In building materials using workplace waste; 10-15% of the total weight of the building materials (1), and mixed alone or at least two from waste lime, paper slush, construction waste materials, slag, blast furnace slush, sand, combustion materials, dust, soils, clay Workplace wastes (2); 80% to 85% by weight of the total building material (1), and the solid material (3) mixed with the light ash, incineration ash, wastewater lime, and cement; Building materials using workplace waste, characterized in that the water (4) prepared in 4 ~ 6% of the total building materials (1) weight is mixed. The method of claim 1, The solid agent (3); A construction material using workplace waste, characterized by a mixture of light bonsai, incineration ash, wastewater limestone and cement in a ratio of 1: 1.5: 1: 11.5. The method of claim 1, Aggregate is further mixed with the solidifying agent (3) to enable concrete pouring; A construction material using workplace waste, characterized by a mixture of light bonsai, incineration ash, wastewater limestone, cement, and aggregates in a ratio of 1: 1.5: 1: 1: 1.5: 3. The method of claim 1, The wastewater pumice lime of the solid agent is a building material using a workplace waste, characterized in that the waste gypsum. The method of claim 1, The wastewater pumice lime of the solid agent is a building material using a workplace waste, characterized in that the waste lime. The method of claim 1, The building material (1) building materials using the waste of the workplace, characterized in that the colorant is further mixed to exhibit a predetermined color.