RU2233255C1 - Dry building mix - Google Patents

Abstract

FIELD: dry building mixes; manufacture of coats for floors, walls, ceilings, roofs of metal and wooden structures.

SUBSTANCE: proposed mix possesses high strength, avoidance of dust, oil-and-gasoline resistance, avoidance of shrinkage, frost resistance, current conductance (anti-electric static), resistance to attrition, high adhesion to various building materials, protection against ionizing radiation and penetration of radioactive gas radon, incombustibility, adjustable heat and sound insulating characteristics, shielding of rooms against electromagnetic radiation and geopathogenic action of earth field. Proposed building mix includes component containing active magnesium oxide-magnesite caustic powder, modifying additive, natural mineral schungite of III variety at the following relationship of components, mass-%: magnesite caustic powder, 15-40; modifying agent, 0.5-10; the remainder being natural mineral schungite of III variety. Component containing active magnesium oxide may additionally contain caustic dolomite at mass fraction of active magnesium oxide from 0.15 to 0.21 in the amount of 40% of preset mass in mix. Mix may additionally contain quartz and/or swollen pearlite or dolomite or marble of granite sand or quartz or dolomite or marble or granite rubble in the amount of 70% of mass of mix. Mix may additionally contain light filler-swollen vermiculite, saw dust, hydrolysis lignin in the amount of 1-10% of mass of mix. Mix may contain polymer redispersable powder, that is homo-polymers and copolymers of vinyl acetate or ethylene or vinyl laurate or vinyl versalate as modifying agent. Mix may contain active silica-microsilica or ground quartz as modifying agent. Mix may additionally contain stabilizing and water-retaining additive-water-soluble modified ester of cellulose-methyl hydroxyethyl or carboxymethyl or ethylhydroxyethyl or gipan in the amount of 0.02-0.2%. Mix may additionally contain water-reducing additive-super plasticizing agent-salt of sulfonated naphthalene formaldehyde or melamine formaldehyde polymers in the amount of 0.01-0.3% of mass of mix. Mix may additionally contain anti-foaming additive-foam suppressor-mixture of fatty hydrocarbons and polyglycols on inert carrier-amorphous silica in the amount of 0.1-0.3 of mass of mix. Mix may additionally contain pigment in the amount of 0.54%-finely dispersed powder of schungite.

EFFECT: enhanced efficiency; improved quality.

14 cl, 3 ex

Description

The invention relates to dry building mixtures and is intended primarily for the manufacture of floor coverings, and can also be used for the manufacture of wall coverings, ceilings, facades, roofs, metal and wooden structures, piece construction products.

Currently, given the increase in adverse geophysical and technological factors, it is very important to create environmentally friendly coatings in order to protect people, ensure fire and explosion safety of production processes and the substances and materials used in them.

This problem is solved, in particular, by using substances in building materials with a specific volume electric resistivity of 10 ⁷ Ohm · m, with a specific surface electric resistance of up to 10 ⁹ Ohm (according to GOST 6433.2-71) and the ability to impart specified properties in electrical conductivity to a composite material.

Shungite rocks of the third variety meet this requirement to the maximum extent due to their chemical and mineral composition and structure.

Shungite rocks are a natural composite in which highly dispersed crystalline silicate particles are uniformly distributed in an amorphous carbon matrix. Thanks to this structure, with a relatively low content of the conductive carbon phase, shungite rocks have a fairly high electrical conductivity (2000-5000 Ohm / m).

It is also known that schungite rocks of the third variety are characterized by high, close to granites, mechanical compressive strength (800-2000 kg / cm ² ), high density (2.35-2.45 g / cm ³ ) and low porosity (not more than 0.5%).

Due to the presence of mineral phases of different nature of polarity (polar silicate and non-polar carbon phases), shungite is well combined with all inorganic binders (cement, lime, water glass, gypsum, anhydrite, etc.), and also can be part of organic matter as a filler (resin , rubber, fluoroplastics, etc.).

Known polymer concrete mixture used for monolithic flooring, the basis of which is used epoxy-diane resin ED-20 (GOST 10587-84) and a hardener and in which the mineral filler is ground natural materials: quartz sand, shungite and other materials with size particles of 0.4-1 mm (RF patent No. 2059585, publication 1996).

Known composition used as a protective and decorative coating for metal, concrete, wood, wood-tile materials, asbestos cement, as well as a bonding material that includes a phosphate binder, a mixture of oxides and a filler - at least one component from the group: oxide silicon, kaolin, shungite, etc. (RF patent No. 2097356, 1997 publication).

A known building mixture containing Portland cement as a binder, aggregate, filler, stabilizing and modifying additives (lignosulfonates) and water (USSR copyright certificate No. 1470713, publication 1989).

The disadvantages of the known mixture include unsatisfactory wear resistance, insufficient strength and water retention ability of the resulting building structures.

Known building mixture containing magnesia cement in the role of a binder, aggregate and fiberglass (international application WO No. 98/5419, 1998 publication).

The disadvantage of this building mixture is its low manufacturability (lack of mobility) in the process of manufacturing the coating, as well as the fast abrasion and brittleness of the resulting floors.

Known dry mix for construction purposes, containing caustic magnesite powder, an aqueous solution of magnesium chloride, a mineral and / or chemical additive and mineral filler (RF patent No. 2121987, 1998 publication).

The disadvantages of the known mixture include the need to use additional technological methods to intensify the hardening process and increase the strength effect.

A dry building mixture is also known, including a component containing active magnesium oxide - caustic magnesite, modifying additives, aggregate, filler (RF patent No. 2163578, 2001 publication).

The objective of the present invention is the creation of inexpensive and uncomplicated in the manufacture and use at construction sites of special dry building mixtures with unique combinations of properties and optimal performance characteristics, replacing several different building materials with mono-properties. The above properties include: high strength, dust-free, oil and petrol resistance, non-shrinkage, frost resistance, conductivity (anti-electrostaticity), abrasion resistance, high adhesion to various building materials, protection against ionizing radiation and from penetration of radon radioactive gas, incombustibility, adjustable heat and sound insulation characteristics premises from electromagnetic radiation and geopathic effects of the Earth's field.

The invention consists in the following.

The dry building mix includes a component containing active magnesium oxide - caustic magnesite powder, a modifying additive, and additionally contains natural mineral shungite of the III variety in the following ratio of components, wt.%: Caustic magnesite powder 10-40; modifying additive 0.5-10.0; natural mineral shungite III species - the rest.

Caustic magnesite is a component containing active magnesium oxide with a mass fraction of active magnesium oxide from 0.75 to 0.95 - caustic magnesite powders are used for this according to GOST 1216-87.

Additionally, the mixture may include, as a component containing active magnesium oxide, caustic dolomite with a mass fraction of active magnesium oxide from 0.15 to 0.21 in an amount up to 40% by weight of the mixture.

Additionally, the mixture may contain quartz and / or expanded perlite, or dolomite, or marble, or granite sand or crushed stone, quartz, or dolomite, or marble, or granite in an amount up to 70% by weight of the mixture.

Additionally, the mixture may contain lightweight aggregate - expanded vermiculite, sawdust, hydrolytic lignin in an amount of 1-10% by weight of the mixture.

As a modifying additive, the mixture may contain a polymer redispersible powder - homo- and copolymers of vinyl acetate, or ethylene, or vinyl laurate, or vinyl versalate.

As a modifying additive, the mixture may contain a component containing active silica - silica fume or silica flour.

The mixture may additionally contain a stabilizing and water-retaining additive, which can be used water-soluble modified cellulose ether methylhydroxyethyl, or carboxymethyl, or ethylhydroxyethyl, or hypane in an amount of 0.02-0.2% by weight of the mixture.

The mixture may additionally contain a water-reducing additive, which can be used as a superplasticizer - a salt of sulfonated naphthalene formaldehyde or melamine formaldehyde polymers in an amount of 0.01-0.3% by weight of the mixture.

The mixture may additionally contain an anti-foaming additive, which can be used antifoam - a mixture of fatty hydrocarbons and polyglycols on an inert carrier - amorphous silica in an amount of 0.1-0.3% by weight of the mixture.

The mixture may further include pigment in an amount of 0.5-4% by weight of the mixture. As a pigment, finely divided shungite powder can be used.

The presence of shungite, a natural mineral (in the form of crushed stone, fractionated shungite sand and fine powder) with conductive properties, in the declared amount allows reducing electrical resistance and creating a new class of conductive magnesian building materials combining high performance characteristics (mechanical strength, frost resistance , wear resistance), incombustibility, antistatic intrinsic safety, and provide a high level of efficiency The screening in the high frequency range (30 MHz) of 100 dB.

Shungite REMs (radio-shielding materials) have advantages over metal screens in reliability, durability (lack of metal reinforcement in the composition of the material), environmental friendliness and cost. In addition, they do not distort the geomagnetic field of the Earth.

The technical result of the invention is to achieve a specific volume electric resistance of the finished coating not higher than 10 ⁷ Ohm · m and a specific surface resistance not higher than 10 ⁹ Ohm, which allows, in accordance with GOST 12.4.124-83, “Protective equipment against static electricity. General technical requirements ”include the proposed material as anti-electrostatic substances.

The strength characteristics of the conductive coating obtained from the claimed mixture are: 10-60 and above MPa in compressive strength, 5-20 and above MPa in bending strength, not less than 200 frost resistance cycles. These data allow the composition to be used in floor construction, including self-leveling (mobility of the resulting solution, estimated by the spot of spreading using a Suttord viscometer, not lower than 25 cm).

The manufacturing technology of dry building mixes includes the following operations: preparation, dosing and mixing in a mixer of caustic magnesia powder, mineral filler and modifying additives, followed by packaging in 20-25 kg of paper bags.

Ready dry mixes are delivered to construction sites in dry form and mixed immediately before use with bischofite - saline with a density of 1.1-1.35 kg / l of one of the following salts of strong acids of divalent and trivalent metals: magnesium chloride MgCl ₂ , ferric chloride FeCl ₃ , magnesium sulfate MgSO ₄ .

The technology for obtaining the proposed dry building mix is illustrated by the following examples.

Example 1

To prepare a batch of dry construction mixture, a mixture is made up of 10.4% caustic magnesite, 0.6% silica fume and 89% natural mineral Shungite III variety (in the form of shungite crushed stone (3-5 mm) and shungite sand (up to 3 mm) ) In addition to this mixture, caustic dolomite with a mass fraction of magnesium oxide of 0.15, superplasticizer (sodium salt of sulfonated melamine formaldehyde resin), antifoam (e.g. agitane) and hydrolysis lignin in the amount of 15%, 0.5%, 0.2% and 1 are added. , 0%, respectively, of the mass of the mixture. After dosing, the components in dry form are mixed in a mixer and mixed with bischofite saline with a density of 1.2 kg / l (mass fraction of the salt component is 0.2).

This composition is used to make anti-EMR anti-electrostatic screeds with a specific volume electrical resistivity of not higher than 2 · 10 ³ Ohm · m, with a compressive strength of 30 MPa after 28 days from the beginning of solidification.

Example 2

To prepare a batch of dry building mix, a mixture is made up of 70% caustic magnesite with a mass fraction of magnesium oxide 0.75, 7.5% quartz flour as a modifying additive and 22.5% of the natural mineral shungite of the third variety (in the form of shungite sand ( up to 3 mm)). In addition to this mixture, dolomite sand (up to 3 mm), superplasticizer (sodium salt of sulfonated melamine-formaldehyde resin), polymer redispersible powder (e.g., drycryl) in the amount of 40%, 0.25% and 5.0%, respectively, of the mixture weight are added. After dosing, the components in dry form are mixed in a mixer and mixed with bischofite saline with a density of 1.2 kg / l (mass fraction of the salt component is 0.3).

This composition is used as a sparkless anti-electrostatic face coating that protects against electromagnetic radiation, with a specific volume electrical resistance not exceeding 5 · 10 ³ Ohm · m, with a compressive strength of 35 MPa after 28 days from the beginning of solidification.

Example 3

To prepare a batch of the mixture take 33.0% of caustic magnesite with a mass fraction of magnesium oxide of 0.75; 66.5% of schungite sand (0.1-1.0 mm); 0.5% quartz flour. In addition to this mixture, add 0.5% schungite fine powder (60-80 microns), 5.5% expanded perlite sand, 0.05% superplasticizer (sodium salt of sulfonated melamine formaldehyde resin), 0.1% water-retaining additive (carboxymethyl or methylhydroxyethyl )

After dosing, the components in dry form are mixed in a mixer and mixed with bischofite saline with a density of 1.15 kg / l (mass fraction of the salt component is 0.25).

This composition is used as a non-combustible plaster coating with a specific density of 900 kg / m ³ , which protects against electromagnetic radiation, with a compressive strength of 10 MPa after 28 days from the beginning of hardening.

Based on the proposed dry mixture, building materials and products from them can be made that have conductive properties and provide anti-electrostatic intrinsic safety and protection against electromagnetic radiation.

The use of the proposed composition allows to obtain plaster mortars (compositions for casting products), including heat and sound insulation, which provide not only effective heat and sound insulation, but also shielding office and residential buildings from harmful EMR emissions.

Using the proposed dry mixture in the construction (reconstruction) of residential buildings and industrial premises allows you to create an undistorted structure of the Earth’s natural magnetic field inside the building and protect the person from the adverse effects of electromagnetic radiation of a natural and anthropogenic nature.

Claims (14)

1. Dry building mixture, comprising a component containing active magnesium oxide - caustic magnesite powder, a modifying additive, characterized in that it additionally contains natural mineral shungite of the III variety in the following ratio of components, wt.%: Caustic Magnesite Powder 15-40 Modifying additive 0.5-10 Natural mineral shungite III species Else 2. The mixture according to claim 1, characterized in that the component containing active magnesium oxide further comprises caustic dolomite with a mass fraction of active magnesium oxide from 0.15 to 0.21 in an amount up to 40% by weight of the mixture. 3. The mixture according to claim 1, characterized in that it further comprises quartz and / or expanded perlite, or dolomite, or marble, or granite sand or crushed stone, quartz, or dolomite, or marble, or granite, in an amount up to 70% of mass of the mixture. 4. The mixture according to claim 1, characterized in that it further comprises a lightweight aggregate - expanded vermiculite, sawdust, hydrolysis lignin in an amount of 1 to 10% by weight of the mixture. 5. The mixture according to claim 1, characterized in that as a modifying additive it contains a polymer redispersible powder - homo- and copolymers of vinyl acetate, or ethylene, or vinyl laurate, or vinyl versalate. 6. The mixture according to claim 1, characterized in that as a modifying additive it contains a component containing active silica - silica fume or silica flour. 7. The mixture according to any one of claims 1 to 6, characterized in that it further comprises a stabilizing and water-retaining additive. 8. The mixture according to claim 7, characterized in that as a stabilizing and water-retaining additive it contains a water-soluble modified cellulose ether - methylhydroxyethyl, or carboxymethyl, or ethylhydroxyethyl, or hypane in an amount of 0.02 - 0.2% by weight of the mixture. 9. The mixture according to any one of claims 1 to 8, characterized in that it further comprises a water-reducing additive. 10. The mixture according to claim 9, characterized in that as a water-reducing additive it contains a superplasticizer - a salt of sulfonated naphthalene formaldehyde or melamine formaldehyde polymers in an amount of 0.01-0.3% by weight of the mixture. 11. The mixture according to any one of claims 1 to 10, characterized in that it further comprises an anti-foaming additive. 12. The mixture according to claim 11, characterized in that as an anti-foaming additive it contains an antifoam - a mixture of fatty hydrocarbons and polyglycols on an inert carrier - amorphous silica in an amount of 0.1-0.3% by weight of the mixture. 13. The mixture according to any one of claims 1 to 12, characterized in that it further comprises a pigment in an amount of 0.5-4% by weight of the mixture. 14. The mixture according to p. 13, characterized in that as a pigment it contains a fine powder of schungite.