JP2018528920A - Lightweight concrete and manufacturing method - Google Patents

Abstract

Lightweight concrete consisting of a mixture of cement, low density aggregate, water, surfactants, resins, and foam previously produced using a stirrer or produced by spraying water, The typical density is in the range between 250 kg / m ³ and 1200 kg / m ³ , the low density aggregate is pumice, volcanic material, or calcined clay, and 300 kg / m ³ to 1100 kg / m Lightweight concrete lightweight concrete characterized in that it exhibits a compression resistance between 0.9 and 14.3 MPa at densities between m ^{3 and 3} is used in flooring, ceiling and wall panels It is ideally suited for all types of finishes, minimizes on-site waste levels, is easy to both transport and assemble elements and structures Has excellent fire resistance, low thermal conductivity, waterproofness, and soundproofing.

Description

  The subject of the present invention is, as established in the title, a lightweight concrete, in other words a form of light concrete without compromising its structural properties, and a further subject of the present invention is the production of the concrete described above. Is the method.

  By combining the materials used in the manufacturing process, the present invention mainly combines an aggregate material with lower density and specific weight, adding the aggregate material to waterproof, soundproof, and fireproof, It is characterized by the achievements achieved by using it with other additives that make it a material with resistance to compression, bending and thermal conductivity.

  Accordingly, the present invention falls within the field of concrete and methods for producing them.

  Concrete is used in construction and is essentially a composite material formed by aggregate particles or fragments, water, and a binder to which certain additives are added.

  The binder is most commonly cement (usually Portland cement) mixed with water in the proper proportions so that a hydration reaction occurs. The aggregate particles, which are basically determined by their average diameter, are dry elements (classified as gravel, jade gravel, and sand). A mixture of sand and water and cement only (no added aggregate) is called mortar. There are concretes made with different binders other than cement, such as asphalt concrete, that use bitumen to make a mixture.

  "Portland" (registered trademark) cement is a clinker, a product produced by boiling and sintering a mixture of limestone and clay, together with a conditioning material (dihydrate gypsum) for setting time, It is formed by grinding together.

Heavy concrete is considered to have a density greater than 3200 kg / m ³ due to the use of high density aggregates (utilizing radiation protection), and standard concrete used in structures is Lightweight concrete has a density of 2200 kg / m ^{3 and} a density of 1800 kg / m ³ .

  However, concrete as known today enables the manufacture of blocks, panels, is suitable for casting walls, is also a high quality insulation with a high level of fire resistance, and has a higher finishing cost As such, it may benefit from a series of improvements to find concrete that is useful for bonded walls and floor tiles, and as such, is described herein and formally stated in the first claim. Developed concrete as recorded.

The subject of the present invention is a lightweight concrete that exhibits a density lower than that of other lightweight concretes, including:
-Cement-Aggregate of different sizes depending on density and usage-Water-Surfactant-Resin-Foam produced in advance using a stirrer or by inclusion of air-Water Additives to avoid penetration.

Aggregate material may, in some cases, without counting the gas or product, specific weight of about 0.9 kg / dm ^3, the solid phase density mode 2.2 kg / dm ^3, and about 0.25 kg / dm ³ Can be manufactured from pumice or volcanic materials that can exhibit a hardness level of 6 on the Mohs scale.

  The water used for mixing must be clean and free of impurities and must not contain oils, basic substances, acidic substances, salts, sugars, organic substances, or chlorine.

  A surfactant material is a substance that is affected by the surface tension on the interface between two phases (eg, two mutually insoluble liquids). Depending on the degree of dispersion in water and the degree of stabilization of micelles or colloids, surfactants are used as emulsifiers, humidifiers, detergents or solubilizers.

Lightweight concrete obtained as a result of a combination of the preceding elements, depending on the density of the aggregate material used has a density of between 250 kg / ^{m 3} to 1200 kg / ^{m 3.} Based on the density of the aggregate material, the resulting density of the concrete is different and therefore the usage that can be applied to the concrete is also different.

The properties of the invented lightweight concrete are as follows:
-This lightweight concrete is an ideal concrete for construction thanks to cheaper finishing costs (the walls do not require plastering, just filling and painting).
-This lightweight concrete is easy to use when fixing floor and wall tiles.
-This lightweight concrete is not necessary to join the blocks together using mortar, all that is needed is an adhesive and the seam is almost invisible.
-In countries where volcanic materials and pumice are available, this lightweight concrete is also an ideal aggregate to avoid "manufacturing" materials with low levels of density, such as: "Luka", Sweden, etc. A clay baked at high temperatures used in Scandinavian countries.
-This lightweight concrete is suitable for making blocks, panels and casting walls with pumping equipment.
-This lightweight concrete has a high insulation level suitable for building houses in cold places as well as in hot places.
-This lightweight concrete has a high degree of fire resistance, and the lightweight concrete is excellent in protecting metal structures, piping, wiring, etc.
-The components of the mixture are not harmful to humans or the environment.

  Therefore, in summary, because of the low specific gravity of concrete, the invented lightweight concrete is ideal for use in flooring, ceiling, and wall panels and is suitable for all types of finishes and in the field It is easy to both transport and assemble elements and structures, and has excellent fire resistance, low thermal conductivity, waterproofness, and soundproofing.

The manufacturing method includes the following steps:
-Separating heavy and light stones, removing dust and washing the aggregate to rinse the aggregate,
-Sorting the materials by 0-2 mm, 2-5 mm, 5-9 mm, 9-20 mm, depending on their use in different mixtures and densities;
-Adding water that is clean and must be free of impurities and should not contain oil, basic substances, acidic substances, salts, sugars, organic substances or chlorine;
-Adding a surfactant;
-Adding cement;
-Mixing all of the components for a period of between 3 and 6 minutes using a drum stirrer, which may be vertical or horizontal;
-Producing a foam that is pre-manufactured using a stirrer or that is produced by including air;

  Unless otherwise indicated, all technical and scientific elements used herein have the meaning commonly understood by one of ordinary skill in the art to which this invention belongs. ing. When the invention is practiced, methods and materials similar or equivalent to those described herein can be used.

  Throughout the description and claims, the term “comprises” and variations thereof are not intended to exclude other technical characteristics, additives, components, or steps. Those skilled in the art will infer other objects, advantages, and characteristics of the invention from both the description and practical applications of the invention.

One preferred embodiment of the invented lightweight concrete is pre-manufactured using cement, low density aggregates, water, surfactants, resins, and agitators, or produced by jetting water The final density is between 250 kg / m ³ and 1200 kg / m ³ .

  In another possible embodiment, the aggregate material is a pumice or volcanic material, or clay fired at high temperatures.

Approximate and in no way limiting, the composition of the cement in possible embodiments:
Alite: 27.9% by weight of tricalcium silicate 3CaO.SiO ₂ (C3S)
- belite: 5.8% of dicalcium silicate 2CaO _· SiO 2 (C2S)
-2.6% tricalcium aluminate 3CaO.Al ₂ O ₃ (C3A)
-Celite: 52.7% tetracalcium aluminoferrite 4CaO.Al ₂ .F ₂ O ₃ (C4AF)
-1.2% magnesium oxide-2.8% sulfur oxide-The remainder of the material accounting for 7%.

If pumice or volcanic material depending on the density of the preferred aggregate material, lightweight concrete spans may be used for different purposes, with a possibility of obtaining subranges density from 250 kg / m ³ to 1200 kg / m ³ Have different densities. :
A density of 250-600 kg / m ³ for insulation and sound insulation, for unloaded walls, used between the ceiling and the floor.
A density of 600-800 kg / m ³ used in blocks and insulation.
A density of 800-1000 kg / m ³ used in non-bearing pre-cast elements.
A density of 1100-1200 kg / m ³ used in load-bearing pre-cast elements and flooring.

The concrete produced in this way has the following functional and structural properties depending on the final density:
-The compression resistance according to the density is as follows:
・ Density 300-800kg / m ³ = 0.9-4.6MPa
Density 800-1100kg / m ³ = 4.6-14.3MPa
-Bending resistance: density 600 kg / m ³ = 0.89 MPa
- refractory: Density 400kg ^/ m 3 = 90 min after 60 ° C..
-Thermal conductivity: density 600 kg / m ³ = 0.093 W / mK
-Waterproof: water penetration depth: 25 mm.
-Soundproofing: a constructed panel with a thickness of 15 cm ensures an acoustic behavior evaluation of effectively reducing external noise and / or noise generated in the real estate to the outside.
-Fire resistance: Lightweight concrete with aggregates of volcanic origin is more resistant to fire and has the property of preserving quality when faced with fire, and therefore, compared to conventional concrete Protection of the structure is guaranteed.
The block can be cut using a hand saw.
-The product can be nailed and glued using wooden glue.
-For electrical wiring, the product can easily be cut in the recesses and milled out of the grooves for piping.

  Thus far, the nature of the present invention as well as the manner of carrying out the invention have been fully described, but the present invention is essential in nature if the basic principles of the invention are not modified, altered or modified. It should be noted that within the scope of the present invention, the required protection may equally be implemented by other embodiments that differ in detail from those presented as examples.

Claims (6)

Lightweight concrete made of a mixture of foam produced by cement, low density aggregate, water, surfactant, resin, and agitator or by jetting air and water, final density Is in the range between 250 kg / m ³ and 1200 kg / m ³ , the low density aggregate is pumice, volcanic material, or calcined clay, and 300 kg / m ³ to 1100 kg / m ³ Lightweight concrete, characterized in that at a density between, it exhibits a compression resistance between 0.9 and 14.3 MPa. The density of 600 kg / ^{m 3,} it is characterized in that it presents a bending resistance of 0.89 MPa, lightweight concrete according to claim 1. Lightweight concrete according to claim 1, characterized in that at a density of 400 kg / m ³ it shows a bending fire resistance of 60 ° C after 90 minutes. The density of 600 kg / ^{m 3,} it is characterized in that it presents a thermal conductivity of 0.093W / mK, lightweight concrete according to claim 1. The cement is
Alite: 27.9% by weight of tricalcium silicate 3CaO.SiO ₂ (C3S)
- belite: 5.8% of dicalcium silicate 2CaO _· SiO 2 (C2S)
-2.6% tricalcium aluminate 3CaO.Al ₂ O ₃ (C3A)
-Celite: 52.7% tetracalcium aluminoferrite 4CaO.Al ₂ .F ₂ O ₃ (C4AF)
Lightweight according to any of claims 1 to 4, characterized in that it comprises the remainder of the material occupying a proportion of 1.2% magnesium oxide-2.8% sulfur oxide-7% concrete. -Separating heavy and light stones, removing dust and washing the aggregate to rinse the aggregate;
-Sorting the materials in 0-2 mm, 2-5 mm, 5-9 mm, 9-20 mm, depending on their use in different mixtures and densities;
-Adding water that is clean and must be free of impurities and should not contain oil, basic substances, acidic substances, salts, sugars, organic substances or chlorine;
-Adding said surfactant;
-Adding said cement;
-Mixing all of the components for a period of between 3 and 6 minutes using a drum stirrer, which may be vertical or horizontal;
6. The method according to any one of claims 1 to 5, characterized in that it comprises the step of producing a foam that is pre-manufactured using the stirrer or that is produced by including air and water. To manufacture lightweight concrete.