Agrovermiculite and vermiculite differences. It is important for gardeners to know how perlite differs from vermiculite. What to do before applying perlite

Insulation vermiculite features and application

Vermiculite composition and processing

Vermiculite contains several components linked by one chemical formula. Most of all it contains silicon - about 35%, there is also 10% magnesium, iron, potassium, calcium, etc.

Natural vermiculite is a large, flaky crystal. From exposure to high temperature, they are transformed into twisted twisted filaments-columns, increasing in volume up to 10 times.

When the material is heated over 1000 degrees, expanded vermiculite is obtained - a light free-flowing material, brownish, golden in color.

Hygroscopicity

The main distinguishing feature of expanded vermiculite (hereinafter referred to as vermiculite) is its high hygroscopicity. 100 grams of material can absorb up to 500 ml of water. But vermiculite is just as easy with water and parting.

In fact, it is a natural hydraulic accumulator. Therefore, it is mainly used in plant growing, as an additive to the soil.

Thermal insulation

Another feature of the material is its high thermal insulation qualities. The thermal conductivity coefficient of bulk vermiculite is in the range of 0.05 - 0.07 W / (m * K), depending on the size of the fractions and the density of the rammer. That makes it possible to use the material as an effective insulation.

1 mm, 120 kg / cubic meter - 0.059

2 mm, 110 kg / cubic meter - 0.057

4 mm, 95 kg / cubic meter - 0.054

8 mm, 65 kg / cubic meter - 0.052

The use of vermiculite as insulation

It is effective to use vermiculite as a bulk insulation for thermal insulation of floors and ceilings. And also for filling various cavities in walls, partitions, pipe boxes ....

When used on attic floors, a reliable waterproofing is required on the roof side, as well as covering the material layer with a vapor-permeable membrane (paper layer). On the side of the room under the material there must be a vapor barrier-film

During installation, special attention is paid to ensuring continuity

Special use

Rigid slabs are made from vermiculite. They are more expensive, but can be used instead of mineral wool, as they have similar characteristics.

On the physical and chemical properties of expanded vermiculite.

Expanded vermiculite - free-flowing porous material in the form of flaky particles of silver, golden or yellow color, obtained by accelerated firing of vermiculite concentrate - hydromica containing bound water between the elementary layers. Swelling occurs as a result of the splitting of vermiculite particles under the action of vigorously evaporating water from them into very thin flakes, which only at certain points retain adhesion to each other.

Expanded vermiculite has a peculiar lamellar porosity, which determines the bulk density of 100-300 kg / m3 and the thermal conductivity of 0.065-0.09 kcal / m hour hail and at the same time the elasticity of the grains, due to which it does not settle in the heat-insulating backfill structures.

The chemical composition of vermiculite corresponds to the approximate formula (Mg + 2, Fe + 2, Fe + 3) 3 [(AlSi) 4O10] · (OH) 2 · 4H2O.

The chemical composition of vermiculite corresponds to the approximate formula (Mg + 2, Fe + 2, Fe + 3) 3 [(AlSi) 4O10] · (OH) 2 · 4H2O
SiO2	38,0 – 49,0 %	TiO2	1,5 %
MgO	20,0 – 23,5 %	Cr2O3	0 — 0,5%
Al2O3	12,0 – 17,5 %	MnO	0,1 – 0,3 %
Fe2O3	5,4 – 9,3 %	Cl	0 – 0,5 %
FeO	0 – 1,2 %	CO2	0 – 0,6 %
K2O	5,2 – 7,9 %	S	0 – 0,2 %
Na2O	0 – 0,8 %	H2O	5,2 – 11,5 %
CaO	0,7 – 1,5 %

However, vermiculite rarely meets the general formula and usually contains impurities.

Physical properties: - hardness on a mineralogical scale: 1-1.5; - density: 2.4-2.7 g / cm3 (expanded - 0.065-0.130 g / cm3); - melting point: 1350 ° C; - application temperature: from −260 ° C to +1200 ° C; - pH value: about 7.0; - thermal conductivity: 0.05 W / m.K (depends on the specific gravity); - does not lend itself to abrasion and is similar in lubricating properties to graphite.

The main and most valuable property of vermiculite is its ability to sharply and unusually increase its volume by 10-20 times when calcined. This phenomenon is explained by the fact that when calcined, molecular water in the flakes and packs of vermiculite turns into steam, under the pressure of which the mica leaves always move apart in one direction, perpendicular to the cleavage of the mica. The expanded vermiculite, when cooled, retains the volume acquired by it with the thinnest gaskets of air instead of water vapor between the mica leaves, which gives the mineral many of its valuable properties.

Nomenclature

Expanded vermiculite is produced in accordance with TU 5712-091-00281915-2007 and is subdivided into grades depending on the bulk density and grain size of the main fraction.
VVF means Expanded Fractionated Vermiculite. Grade 100 means that the bulk density of vermiculite is not more than 100 kg / m³.

St. Petersburg Mica Factory offers expanded vermiculite:

Most heat insulators have one or more flaws - they are either fire hazardous, expensive, or not environmentally friendly. In search of the best option, developers are often interested in the idea of ​​using vermiculite in this role - a layered mineral that changes its structure at high temperatures and acquires new properties that, at first glance, are quite suitable for insulating a building. How versatile is such a heater, does it have any drawbacks, and how to use it correctly?

Vermiculite combinations

Vermiculite layer depending on the size of the granules

Despite the quite affordable price and undeniable advantages, when used without additives, vermiculite slabs are quite expensive during construction. For this reason, they are used in combination with other insulation materials. To reduce production costs, vermiculite is often mixed with sawdust. In such a combination, the finished product retains its original characteristics and does not condense over time due to its own weight.

By mixing the components of finishing materials with vermiculite granules, a composition called "warm plaster" is obtained. This combination has undeniable advantages when compared with the usual methods of wall surface finishing. This is manifested in the fact that the specific gravity of plaster with vermiculite is slightly lower than that of other similar compositions.

In terms of the main thermal indicators and other defining parameters, the considered combination also surpasses them.

A 25 mm plaster and vermiculite cake achieves the same thermal insulation performance as a 100-150 mm layer of a mixture of cement and sand. The plaster mixture prepared in this form can be easily applied to almost any surface to be finished, including brickwork and concrete slabs.

Expanded clay properties

• high strength
• fireproof
• frost resistant
• does not contain harmful impurities;
• does not absorb water;
• durable
• does not lose its properties and does not collapse when frozen
• not subject to decay

Absolutely safe for humans and the environment.

Expanded clay is a product of fast firing of low-melting clays. From Greek, the word "expanded clay" is translated as "burnt clay", which is absolutely true.Despite the heat treatment, it not only does not lose the properties inherent in the clay itself, but also acquires additional, becoming porous.

Photo: Properties of expanded clay material. Application area

On their basis, kermzite-concrete blocks are made, the thermal insulation and mechanical properties of which make it possible to use them for the thermal insulation construction of floors, walls, ceilings, foundations and basements. Thanks to the expanded clay filler, these blocks also acquire its properties. They are lightweight, strong, fireproof, acid resistant, etc.

Applications

Discovered relatively recently, a mineral such as vermiculite and its derivatives have found many different fields of application today:

1. Ecology, oil and chemical industries. Few people will be able to answer when asked about vermiculite, that it is an excellent sorbent capable of binding alkalis and acids. This property allows it to be used to neutralize a variety of chemicals in production, as well as to limit oil spills.
2. Nuclear industry and power engineering. It is used as an absorber for radioactive elements such as cobalt-58, strontium-90 and cesium-137, as well as a reflector of gamma radiation.
3. Automotive and aviation industry. Various sound-absorbing and heat-insulating materials and products are made from vermiculite.
4. In industrial and civil construction, vermiculite is used as follows:

insulation, as well as sound and heat insulator for roofs and floors;

• for filling as an insulating material into hollow panels;
• as an integral component of various plasters, lightweight concrete and dry building mixtures;
• in the manufacture of concrete and cement blocks, as well as heat-insulating mastics as a filler;
• in the production of fire retardant and heat-resistant plates, panels and other wall materials;
• when arranging self-leveling floors.

5. In industrial and private plant growing and horticulture. Let's take a closer look at how vermiculite is used for plants.

Where is used

Expanded hydromica is used in many areas:

• in the production of metal;
• in the chemical industry;
• in agriculture and animal husbandry;
• to ensure fire safety;
• in the production of thermal and cryogenic devices;
• in the construction industry.

In construction, the material is used as:

• dry heat-insulating filler;
• plaster mixes;
• pressed plates.

Technologies for stacking vermiculite building materials

Work with mineral insulation is not difficult or harmful - according to the degree of impact on the human body, the vermiculite coating, according to GOST 12.1.007-76, belongs to class IV (low-hazard substances). To prevent dust from entering the eyes and respiratory system, before using vermiculite, the worker should protect them with glasses and a respirator. Provided that the building material is stored in dry, closed rooms, its shelf life is unlimited.

Thermal insulation of building envelopes with backfill vermiculite

To protect the attic ceiling and the pitched roof surface from heat leaks, you must follow a simple algorithm:

1. Cover the inner lining with an overlap with a vapor-tight film, which will prevent moisture from entering the vermiculite from the inside.
2. Pour dry vermiculite into the formed cavities in the roof frame.
3. On top of it, lay a windproof superdiffusion membrane, the task of which is to prevent the material from weathering and at the same time allow vapors to circulate freely.
4. Install the counter-batten and lay the roofing.

The insulation scheme for attic floors is, in principle, the same:

1. Reliable waterproofing is laid on the filing between the beams.
2. A lag system is mounted, with a layer of 100–150 mm.
3. A bulk insulation for the floor is introduced, which must be immediately covered with a vapor-permeable film.
4. After installing the plank or plywood flooring, the floor is ready for finishing.
5. To reduce material costs, vermiculite can be mixed with sawdust in a 1: 1 or 3: 2 ratio.

The layout of the insulation of frame wooden walls
Filling vermiculite into the walls is possible at the stage of their construction using frame or well technology, or in the process of external insulation. To do this, as the load-bearing wall and facing layer are being erected, the space between them is filled with vermiculite granules with light tamping. The approximate layer thickness is 100 mm (for Moscow). Additional vapor and waterproofing is not required, ventilation gaps in the outer wall are also not required.

Another way to create an insulated wall is to fill the cavities of the building blocks with vermiculite. The thermal insulation effect of such a structure increases dramatically, and the free steam exchange in the wall is not disturbed, and it remains light and breathable. If necessary, the outer wall can be further insulated if it is erected from concrete panels based on fast-setting cement with the addition of bulk insulation for the walls.

Proportions of mortars for screeds

Warming with dry vermiculite is a rather expensive solution, therefore in private construction they prefer to add this material to the composition of building and finishing mixtures. To prepare a solution for a thermally insulated screed, you need to stock up on standard M400 Portland cement, sand and fine or medium-fraction vermiculite. Due to its high water absorption, the solution must be consumed within 30 minutes after mixing.

For reliable insulation of a floor over an unheated space, 100 mm of a screed is usually enough, and for interfloor floors, 30 mm is enough. It must be remembered that the flooded ceiling, due to the small mass fraction of cement, does not have frost resistance, therefore, such screeds are recommended only for heated rooms.

Recipe for plastering solutions for outdoor use

To plaster the walls from the inside, you can use the same composition, and for their external treatment, the proportions of the solution must be slightly changed. Both external and internal plasters have high vapor permeability, contributing to the normal self-regulation of the internal microclimate. Warm vermiculite-based plasters have a natural golden or silvery sheen, but if desired, you can add pigment of the desired shade to their composition.

Interior plaster: C - cement, I - lime, G - clay, V - vermiculite

When laying walls, it is advisable to use modern thermal insulation materials (gas, foam blocks, vermiculite concrete), and the joints between them should be made of masonry mortar with a low coefficient of thermal conductivity. You can knead it using the same vermiculite, having previously determined the optimal composition.

Thus, the demand for vermiculite in construction is obvious: excellent manufacturability and a unique combination of properties bring vermiculite backfills and slabs to the fore among fire-resistant insulation materials. The only significant obstacle to expanding the scope of their application is the high price, but the increase in production gives hope that it will soon be eliminated.

The use of expanded vermiculite in construction

Currently, in construction, there is one of the urgent problems for both newly created and operated buildings and structures - it is their insulation. By using expanded vermiculite, it is possible to achieve a solution to this problem with significant economic benefits.Simultaneously with reducing the cost of keeping heat in buildings and structures, such problems as their fire protection, sound reflection and sound absorption of internal premises are being solved, as well as a number of other problematic issues that arise during landscaping.

Expanded vermiculite is produced by firing vermiculite concentrates of various deposits in vertical furnaces at temperatures ranging from 60 ° C to 900 ° C, depending on the fraction. Due to its valuable sound, thermal insulation and fire retardant properties, vermiculite is widely used in construction. As world practice shows, vermiculite is the simplest, at the same time, very effective material. It can be very successfully used in low-rise and cottage construction as a fireproof bulk insulation for thermal insulation of external walls (by the method of well masonry), attic ceilings, floors, and as an ingredient in "warm plaster". It is also used in a number of specialized industries, for example, in the manufacture of brake pads, or refrigerators. Among other things, vermiculite is a good sorbent for collecting oil, fuel, oils, its sorption capacity is about 400 grams of oil per 100 grams of vermiculite.

The main areas of application of expanded vermiculite in construction:

• Thermal insulation of building structures
• Soundproofing of premises
• Fire retardant coatings
• Lightweight concrete and concrete mixes
• "Warm" plastering mortars

The use of expanded vermiculite in construction is due to very low heat and sound conductivity, environmental safety, high melting point and practically indefinite functional service. Unlike polymer insulation, vermiculite has no aging, decomposition and does not burn in case of fire, because is a refractory material.

• a half-brick masonry of vermiculite blocks is equivalent in thermal insulation to 1.5 m of brickwork
• cladding of buildings with a 3-centimeter layer of plaster based on vermiculite replaced one brick thick masonry in terms of thermal conductivity, eliminating 80% of heat loss through "frost bridges"
• the use of expanded vermiculite in lightweight concrete made it possible to significantly reduce the weight (total) of building structures, significantly reduce heat loss
• slabs based on expanded vermiculite and internal plaster made the room practically soundproof and eliminated heat loss
• high melting point (about 1350 C) led to almost 100% fire safety of housing
• as an aggregate in lightweight concrete based on cement and gypsum binders
• aggregate for thermal and waterproofing masses based on bituminous binders
• aggregate of warm concrete on the device of self-leveling floors
• aggregate in raw materials in the manufacture of piece wall materials
• filler for dry mortar for light external and internal plasters and fire retardants

Thermal conductivity of some building materials:

Expanded vermiculite	0.04 - 0.062 W / m.K
Basalt canvas	0.04 - 0.062 W / m.K
Expanded clay gravel	0.12 W / m.K
Asbestos cement board	0.13 W / m.K
Foam concrete	0.14 - 0.18 W / m.K
Hollow brick	<0.56 W / m.K
Solid brick	> 0.6 W / m.K
Brickwork	0.8 W / m.K
Concrete	1.45 W / m.K
Reinforced concrete	1.6 W / m.K

Along with vermiculite backfills, dry building mixtures and mortars are effectively used in construction, the filler of which is vermiculite. Compared to conventional (sand) mortars, vermiculite mortars due to their high porosity have a 2-4 times lower volumetric weight and a 4-6 times lower thermal conductivity coefficient and belong to the group of light (“warm”) solutions.A layer of “warm” cement-vermiculite plaster 2.5 cm thick can replace a layer of cement-sand mortar 10-15 cm thick.

When the thickness of the cement-vermiculite plaster layer is up to 3 cm, the thickness of the brick wall can be reduced by 25%. The application of cement-vermiculite mortar on brick walls allows you to save a brick in the amount of 0.25 cubic meters per 1 cubic meter of masonry, while the sound absorption coefficient of vermiculite plasters is 0.15-0.3, and for ordinary sandy plaster it is 0.015-0 , 02. It follows from this that the use of “warm” plasters for wall cladding can give a significant economic effect by reducing the thickness of the wall.

Vermiculite plaster solutions are used for interior and exterior finishing of building structures and can perform, in addition to increased heat-shielding and sound-absorbing functions, fire-retardant, decorative, etc. They are applied to structures using the usual methods for plastering. The optimal compositions of mixed vermiculite solutions with clay or lime as fine plasticizing additives are compositions 1: 2: 6 - 1: 3: 8 (by volume - cement: clay (lime): vermiculite). Mixtures of this composition have a fairly high plasticity and convenient stackability, and solutions have a relatively low bulk density and sufficient porosity. The surface of the plaster is well rubbed, it turns out smooth, without defects.

Expanded vermiculite is produced on the basis of GOST, and has the following characteristics:

• Bulk volumetric weight, kg / cubic meter - 90-200 (depending on the faction)
• Thermal conductivity at 25 ° C, W / mK - 0.053-0.0698
• Sound absorption at a frequency of 1000 Hz - 0.7-0.8
• Melting temperature - 1350 ° С
• Application temperature - from -260 to + 1250 ° С

The material is environmentally friendly, does not contain asbestos, does not emit harmful substances in case of fire, and is biologically resistant. Modern requirements for the quality of production of building mixtures and heat-insulating materials dictate the need for careful separation of expanded vermiculite, therefore our company pays great attention to the separation of products.

Our company can offer the lowest prices in the market due to very large production volumes:

Insulation properties vermiculite

Insulation vermiculite is a material that is widely used in construction and finishing works in the construction of new buildings, in carrying out major and current repairs of old buildings. It is used in the form of compressed slabs, as a filler and as an additive to plaster mixes. It is used to insulate walls, floors, attics and ceilings. Vermiculite insulation is carried out during the construction of pipeline systems and highways for various purposes, which significantly extends their service life. This has a positive effect on the operation of the equipment and pipeline fittings installed for the smooth functioning of the entire system.

Technological features

Vermiculite in the form of slabs and in bulk.

Vermiculite is an environmentally friendly material created by nature. Refers to the minerals of the hydromica group. Has a crystalline form of golden brown, yellowish or bronze color. It was found that when the vermiculite plates are heated, they are transformed into threads or worm-like columns. Actually, this property made it possible to give the material such a name, tk. vermiculite translated from Latin means a worm. After examining its physicochemical properties obtained after heating, vermiculite insulation began to be used in various industries, agriculture and construction. Also read: "Choosing the best insulation for the roof."

The main advantages of the material include:

• fire resistance (1350 0 С);
• density (not higher than 150 kg / cubic meter);
• low thermal conductivity (no more than 0.12 W / m * K);
• resistance to aggressive media, bacteria and does not form mold on the surface;
• hygroscopicity;
• the ability to absorb sound (sound absorption coefficient up to 0.8);
• environmental friendliness;
• service life (60 years).

Before pouring antifreeze into the heating system of the house, you need to clean the pipes and batteries from all kinds of contaminants.

Here you can read what equipment is needed for pumping the heating system with antifreeze (non-freezing liquid).

Ways to insulate walls with vermiculite

View of a wall plastered with a solution with the addition of vermiculite.

Vermiculite insulation of walls is carried out in the process of erecting new buildings and objects of old buildings, erected from different materials. Bulk thermal insulation can serve as a filler in the manufacture of heat-resistant concrete and is used for plastering surfaces. It is produced in different fractions (from 0.5 to 12 mm) and is sold in the retail network in paper bags, most often weighing 25 kg.

Granular vermiculite can be poured into inter-wall cavities. The pressed plates are fixed with special fasteners; they can be cut before assembly. Slabs can serve as good insulation when cladding fireplaces, stoves, chimneys and pipes. Vermiculite for ceiling insulation additionally performs soundproofing functions in multi-storey buildings.

Vermiculite insulation, the properties of which remain unchanged regardless of its type, is also used for plastering vertical surfaces. To do this, in certain proportions, it is added to concrete mixtures. You can make them yourself or buy ready-made ones. Comprehensive insulation of the house with vermiculite (walls, floors, attic) will save on heating bills.

The method of how to install an electric heating boiler consists of two parts: an insert with a circuit and a connection to the network.

Insulation with vermiculite of the floor, attic

The technology of vermiculite insulation of the floor and the attic is the same. In this case, the thermal insulation is protected with special films. From the side of a warm room, a vapor barrier should be installed, and from the side of a street or an unheated attic - waterproofing.

When performing thermal insulation with vermiculite, the presence of waterproofing and vapor barrier is mandatory

In doing so, it is extremely important to correctly place these protective layers.

Insulation of a pitched roof

When insulating the floor, waterproofing is placed under the vermiculite.

With such insulation, it is important to choose the correct thickness of the poured vermiculite. It depends on temperature conditions and ranges from 10 to 20 cm

The technology for insulating a pitched roof is as follows:

• a vapor barrier film is laid on the rafters;
• granulated vermiculite is poured;
• covered with a layer of waterproofing and filled with a counter-lattice;
• the roof spreads;
• internal lining with any material is performed.

Insulation vermiculite, the properties of which are well studied, is a modern material that has a wide range of applications.

Specifications

The parameters of vermiculite depend on the size of the fraction, in addition, its exact composition influences. Key characteristics of expanded vermiculite:

• thermal conductivity;
• hygroscopicity;
• sound absorption;
• heat resistance.

In construction, mainly fractions of less than 4 mm are used. The coarse fraction is laid as a filler for refractory concrete. A fine fraction of 0.5-1 mm is used as a free-flowing heat insulator, which is used to fill voids in walls or in bulk for insulation of floors. The characteristics are presented in the table.

Thermal conductivity, W / m * K	Density, kg / m3	Moisture content, %	Sound absorption coefficient at a frequency of 1 kHz
Expanded vermiculite 0.5 mm	0,053	144	3	0,56-0,6
- // - 1 mm	0,050	125	4	0,6-0,65
- // - 2 mm	0,049	100	4	0,7-0,8
- // - 4 mm	0,048	94	5	0,7-0,8
- // - 8 mm	0,045	87	3	0,7-0,8

More details on properties.

Thermal conductivity. The dominant role is played on this parameter by the layered structure of the material after swelling under the influence of temperature.The individual plates remain firmly connected, but direct contact is broken between them, which is filled with air. The material itself has a thermal conductivity of the order of 2-2.7 W / m * K, due to the breaking of bonds between crystal plates, this indicator decreases to 0.03-0.12 W / m * K, which puts it on a par with mineral cotton wool and extruded polystyrene foam. At the same time, it is used in bulk, from which the material is able to fill all irregularities and niches.

Hygroscopicity. A property that explains the demand for vermiculite in agriculture and even hydroponics. The gaps between the crystallized plates are filled with air and water with equal ease. The material is highly hygroscopic. For example, 100 grams of vermiculite can hold up to 500 ml of water. More importantly, water and moisture enter and exit the material with equal ease. In the use of vermiculite as a heater for enclosing structures, this must be taken into account and it is desirable to use it as an advantage, and not as a disadvantage.

Sound absorption. Vermiculite has proven to be an excellent material for soundproofing barriers. High absorption, no settling in the material during compression and increased elasticity allow a wide range of control over the reverberation. Simply put, vermiculite is able to absorb sound waves, while not reproducing extraneous sounds under the influence of friction or deformation of secondary waves. When vermiculite is compressed, by pressing by about 10-20%, maximum absorption of sound waves is achieved.

Heat resistance. The melting point of vermiculite exceeds 1300 g. After swelling, the material no longer undergoes modifications and is not subject to decomposition, change in composition, etc. This makes it a heat-resistant material that can be used to insulate stoves, fireplaces, pipes and chimneys.

Vermiculite boards

In addition to these characteristics, vermiculite can be described by a number of useful properties:

• Environmentally friendly, without harmful emissions in the entire range of permissible operating conditions.
• Prevents condensation formation. It quickly absorbs moisture, and then just as easily releases it in the form of steam. At the same time, it is important to create optimal conditions for the removal of excess moisture.
• High fluidity. Easily fills voids, niches and complex surfaces.
• Doesn't attract rodents. It is not an attractive food for them and, due to its high hygroscopicity, quickly absorbs the odors of rodent marks, from which they quickly lose interest in the space filled with vermiculite.
• Does not cause allergies.
• It is not radioactive and reflects part of the radiation spectrum, has a neutral pH.

Expanded vermiculite is sold as a heater in bags, packed by volume in 50 liters. This is enough so that, with a layer thickness of 10 cm, two bags are enough for backfill 1 m2.

Material with a fraction of 0.5-1 mm for insulation of floors is supplied to the place of installation by air ducts, as well as, for example, ecowool. Otherwise, it is poured directly from the bags. Additionally, fluffing is unnecessary for backfill.

Vermiculite scope, pros and cons, installation features

Solving the topical issue of thermal insulation of a home, one has to face the problem of choosing a thermal insulation material.

The range on the market is wide enough, but almost every option has significant drawbacks. In one case, flammability is discouraged, in the other - a high rate of hygroscopicity.

The article discusses the characteristics and benefits of vermiculite, which is the golden mean of price and quality.

Description and scope of vermiculite

Vermiculite is a natural crystalline mineral with a layered structure. Belongs to the hydromica group.It contains: silicon, iron, magnesium, calcium and other mineral components.

The main advantages due to which the material is used in construction are resistance to aggressive influences, high acidity, retains its integrity for a long time, does not decompose.

Many gardeners are familiar with vermiculite, it is often used as a mulching material, a component of a substrate, an aerator. In construction work, it is not used so often, although properties and physical indicators are of great interest for this field of activity. Among the mastered areas:

• production of paints and varnishes, soft roofing;

• when arranging a "warm floor" system;

• as a filler for heat-insulating and decorative plaster mixes;

• for insulation of individual zones in the house (chimney, floor, roof, etc.);

• as a component of a screed mixture.

Vermiculite has good insulating characteristics, so it is used in regions with a warm climate as a backfill in three-layer walls to prevent overheating of the house, and in the northern regions - for thermal protection of housing.

The land in the regions of the middle zone and the Urals freezes over in winter, which often causes cracks in the concrete bowls of the pools. Vermiculite helps to correct the situation. It is poured into the bottom, as well as into the cavity between the bowl and the edge of the trench during construction.

Insulation is produced in the form of backfill, pressed plates, blocks, pipe segments, liners.

Pros and cons of vermiculite

To appreciate the material, you need to familiarize yourself with its advantages and disadvantages.

Among the main advantages of vermiculite:

• environmental friendliness, no toxic substances are emitted during operation during heating;

• low thermal conductivity (0.055–0.098 W / m • ° C);

• fire resistance (operating temperature range from minus 260 ° to plus 1200 °);

• does not shrink over time;

• has good vapor permeability, which excludes the formation of condensation in the room;

• resistance to microbiological processes, rodents and insects do not show interest in the material;

Features of the use of vermiculite

Ceiling insulation with a porous material is carried out from the side of the attic. A waterproofing sheet is laid on the rough ceiling, and joists are mounted under the flooring. Vermiculite is poured between a wooden beam in a layer of 10-15 cm. A diffuse membrane is laid out on top of it, and boards or plywood are stuffed.

To save on thermal insulation, the insulation is diluted with sawdust. Mineral fractions prevent them from caking, getting wet and rotting.

When erecting frame or hollow walls, the space between two partitions is filled with insulation; vermiculite is excellent for this purpose. The filling is divided into stages with an interruption for tamping. The vapor permeability of the material ensures optimal air exchange.

The pitched roof is insulated in the following way:

• a crate is stuffed on the rafters;
• the waterproofing film is spread and fixed with a stapler;
• vermiculite is poured between the lathing bars;
• the insulation is covered with a windscreen from getting wet and blowing out;
• counter-lattice is being constructed;
• roofing material is being laid.

Application of expanded clay gravel

Indicators	Fractions of expanded clay gravel, mm
8/20	4/10	0/4
Pitched roof insulation	+
Thermal insulation and the creation of a slope of flat roofs, lawns on terraces	+
Production of ultra-lightweight concrete and lightweight ceramic-concrete blocks	+	+	+
Thermal insulation and sound insulation of floors and ceilings	+	+
Thermal insulation and reduction of the depth of laying of foundations	+	+
Thermal insulation of soil	+	+
Thermal insulation and drainage in earth embankments of roads laid in water-saturated soils	+	+
Hydroponics, creating an optimal microclimate for the root system of plants	+	+
As a dry backfill for GVL floors in order to improve the heat and sound insulation capacity of the floor	+
Warm solution production	+
Production of facade and paving slabs	+

Expanded clay will also be useful to those who lay heating networks near their homes. First, you will be sure that your pipes are heating you, and not the cold earth. Secondly, in the event of an accident, you will not have to dig long and tediously in search of a leak. Thirdly, after a successful repair, nothing prevents you from using the material again, while it will not lose its properties.

Expanded clay can be used not only in construction. With its help, they improve the paths at the summer cottage and even increase the yield of fruit trees, creating a kind of drainage system for their roots. The same applies to indoor flowers and plants. For these purposes, expanded clay is used smaller in size.

The use of expanded clay when pouring the foundation as a concrete filler is not recommended. In this case, it is better to use any crushed stone, even crushed stone, even granite. Expanded clay is bad in this quality in that it has smooth rounded edges, and this does not prevent the occurrence of work on shear (shear-break) of the concrete mass. And the foundation should precisely exclude cracks (shifts) of the tape in the cross section.

Perlite

Perlite is a mineral (expanded glass) with a sterile environment, is an inert highly effective loosening additive to the soil, poor in nutrient chemical elements and completely devoid of organic matter. It was originally used as a substitute for sand, which is difficult to find in urban environments. The particle size of perlite can be 1-5 mm, agroperlite includes fractions from 2.3 to 5 mm. Smaller particles (perlite sand) have a high bulk density and are less air-consuming, while larger ones are fragile. The main properties of perlite are soil loosening and improvement of its structure. Perlite is able to retain moisture 3-4 times its own weight and has excellent heat-shielding properties. The optimal composition of the mixture is obtained by adding 15-35% agroperlite. The coarse fraction can be used as drainage, pouring up to 5 cm of wet agroperlite on the bottom of the pot. A big plus of agroperlite is that it does not crumble or cake. Also, the advantages of perlite include its complete sterility: it does not require any special disinfection before use.

Perlite particles are very lightweight, which is why it is popular in container gardening. and is also actively used in rooftop landscaping, where it is necessary to use light substrates in order to minimize the load on the roof. However, allergy sufferers should handle perlite very carefully: in a dry state, it is very dusty. To remove dust from perlite, some growers moisten or even rinse before applying. A large amount of perlite dust makes the soil dense, poorly breathable, and, accordingly, unsuitable for the development of the root system of plants.

What should be done before applying perlite?

As everyone has already understood, the main preparation of perlite for use is in washing it. In a dry state, perlite is very dusty, and its dust is not entirely harmless. After inhaling it, the nose and throat may itch for a long time. Therefore, before starting to actually wash the perlite, turn on hot water in the bathroom for 5-10 minutes. The resulting moisture will “nail down” the perlite dust, which will surely fly when the bag is opened. Some growers advise cutting a small hole in the bag and sprinkling it with water from a bullet gun. After that, you can pour the perlite into a gauze bag (the gauze must be folded in 2-3 layers) or pour it into a flour sieve and rinse it calmly. In any case, do not stick your nose into the bag while checking for dust.

Scope of expanded clay

In addition, expanded clay is also used as an insulation, but it must be a highly porous material, and before using it as a backfill insulation, calculations that are not very complicated, but accessible only to specialists, should be made. Regarding its capabilities in the field of heat saving, we will only say that as a filling option, it loses to other heaters. The estimated thickness of the expanded clay backfill with a density of 600 kg / m3 is approximately 40 cm. This is not entirely effective.

At the same time, used in the manufacture of expanded clay concrete blocks, it significantly increases their heat-saving characteristics.

Expanded clay is actively used in the construction of a dry screed. Now this method is very popular, as it allows you to get a solid base for laminate, linoleum, cork in the shortest possible time, literally back.

Also, due to its unique properties, including resistance to moisture and frost, it is actively used for filling the foundation during the construction of various buildings and structures. This makes it possible to reduce the depth of the foundation by almost 2 times - from 1.5 m to 0.8 m, which leads not only to savings in building materials, but also to prevent freezing of the soil near the foundation of the building. The latter is fraught with distortion of the doors and window frames of the building.