XPS insulation is an effective means of fighting for warmth

It is possible to create a comfortable and, most importantly, healthy atmosphere in the house only if it maintains the appropriate humidity and air temperature. Condensation, dampness, mold, mildew, cold bridges - all this can be avoided by using XPS foam polystyrene insulation for internal and external thermal insulation.

Everything important to know about Styrofoam

XPS insulation is extruded polystyrene foam. Quite a new invention in the field of thermal insulation technologies. However, despite this, XPS has already managed to earn great popularity, both among professional builders and DIYers. How is this justified? Let's figure it out.

How is expanded polystyrene

In the photo - equipment for the production of extruded polystyrene foam

Modern equipment makes it possible to produce insulating polystyrene foam with a uniform structure, consisting of small, completely closed cells (each with a size of 0.1-0.2 mm). At the first stage, granular polystyrene of general purpose is poured into the extruder and a foaming agent is injected, which subsequently endows the insulation with basic properties.

Note! As a blowing agent, as a rule, mixtures of light freons or carbon dioxide are used. They belong to the group of non-flammable, non-toxic and ozone-friendly substances.

After filling, all components are mixed and melted, resulting in a homogeneous mass. Then, under pressure and pulling rollers, the molten mass is squeezed out of the extruder through a die, which gives the expanded polystyrene to a specific shape. At the next stage, the residues of the foaming agent are replaced with air in the cells of the material, after which it is cut and placed in thermal packs.

For information! XPS expanded polystyrene is available in slabs, mats, cylinders or segments in various thicknesses and colors.

Characteristics of expanded polystyrene

The positive qualities of XPS insulation make it perhaps the best option among the entire range of insulation materials on the market:

• Extruded polystyrene foam is characterized by minimal hygroscopicity;
• Low heat and steam conductivity;
• Does not absorb moisture;
• Resistant to fire;
• Due to its structure, XPS has an unusually high compressive strength and biological stability (i.e. insects and rodents are not in it);
• It is an environmentally friendly and safe material;
• It should be noted the simplicity and ease of installation - all work on thermal insulation can be done by hand, without helpers;
• Expanded polystyrene is not the cheapest insulation, but its price is quite adequate. Of course, it is slightly higher than, for example, mineral wool or ordinary foam, but the costs will pay off doubly. We will talk about this a little later.

Reliable thermal insulation of residential, municipal and industrial buildings plays a major role in reducing heating costs. And, as you have already noticed, extruded polystyrene foam is quite capable of providing effective insulation - with its help you can get rid of heat loss for a long time and save a good budget.

Note! With expanded polystyrene XPS, you can insulate a loggia, walls, floors, foundations, roofs, communications, garages, and many other structures.

Thermal insulation of the balcony with XPS plates

Answers to important questions

1. Why is XPS foam more expensive than conventional thermal insulation materials?

Of course, a cubic meter of XPS is somewhat more expensive than the same mineral wool or foam, but in the case of expanded polystyrene, a much smaller thickness of the material will be required, plus you will not have to purchase additional hydro and vapor barrier films.

Based on the foregoing, the total cost of insulation with expanded polystyrene is lower compared to insulation with the help of other materials. And the XPS will last much longer without causing problems during operation.

You also need to take into account the fact that extruded polystyrene foam does not absorb moisture, which means that over time its thermal insulation properties will not decrease, mold and mildew will not appear in it.

1. Is it possible to insulate wooden structures with polystyrene foam?

Yes, you can. True, this will require a vapor barrier on the inside of the room. The thing is that wood has a much higher vapor permeability than expanded polystyrene. It turns out that the layer of insulation will not allow steam to come out, and the wooden wall will begin to damp and rot.

Thermal insulation of a wooden house outside with XPS plates

In order to avoid this, a vapor barrier made of foil-clad polyethylene with a thickness of 200 microns should be carried out from the inside of the room. All joints of the vapor barrier material are glued with metallized tape. After that, a frame is assembled for the construction of a decorative wall made of plasterboard, wood, panels and other materials.

Outside, polystyrene foam insulation is attached to the facade using screws with a pressure disc. On top of the thermal insulation there is a decorative finish (for example, lining or siding).

1. What is the XPS insulation attached to?

Here's a quick guide to help you choose the right mounting method for your application:

• First of all, it must be said that cement, acrylic and polyurethane glue are suitable for expanded polystyrene. With their help, you can glue the insulation anywhere (to walls, facade, foundation, loggia, etc.).
• If the surface to be insulated is not too flat, you can additionally strengthen the XPS with disc-type dowels.
• For insulation of a flat surface, fastening without adhesive solutions, only for one dowel, is permissible.

Foundation insulated with expanded polystyrene

• When insulating the foundation or soil of the slab, polystyrene foam is simply sprinkled with earth. And above the ground, it is fixed with dowels (5 pieces per one plate).
• If there is a layer of bitumen-polymer waterproofing on the foundation, then you should not use glue for installing the insulation. It is better to melt the waterproofing layer at 5 points and press the expanded polystyrene plates tightly against it.
• When insulating attic floors, floors, inverted roofs, the XPS can be simply installed without mechanical fastening.

Properties of synthetic insulation

Thermal insulation material is made of polystyrene granules with the addition of a blowing agent. Freon or carbon dioxide is used as such an additive. The substances are heated to a high temperature, and the viscous polymer mass is forced through an extruder (molding mechanism). The result is extruded polystyrene foam with small closed cells.

This technology provides a homogeneous material structure and a uniform particle size of 0.1-0.2 mm. The closed, gas-filled cells make the insulation lightweight, provide low water absorption and thermal conductivity. The material does not let moisture inside and is not afraid of contact with it. Extruded polystyrene foam (EPS) can be used in places of contact with water without installing a hydro-barrier.

The dense arrangement of closed capsules creates an insurmountable barrier to water vapor and air. The material is characterized by a low vapor permeability coefficient.

This quality in various situations becomes an advantage or disadvantage of insulation.If necessary, a vapor barrier device, for example, with internal insulation, EPS comes in handy. But in most cases, it interferes with the normal movement of air and requires additional ventilation to eliminate the increased humidity.

In terms of heat retention, synthetic material outperforms:

• foam plastic - 1.5 times;
• mineral wool - 2 times;
• wood - 10 times.

Insulation plates have high strength and resistance to mechanical stress, which allows them to be used in areas with high loads (foundation, construction of highways and auxiliary structures).

Despite the synthetic components, the material is environmentally friendly and safe for humans. It is resistant to mold and mildew, but rodents can ruin the slabs. The heat insulator is resistant to most chemical compounds, but decomposes under the influence of gasoline, acid and organic solvents.

Characteristics of extruded polystyrene foam

• thermal conductivity - 0.028-0.034 W / m * K;
• vapor permeability coefficient - 0.015;
• density - 28-45 kg / m3;
• water absorption - 0.4% of the volume of the material;
• the insulation is operated in the temperature range - from −50º to + 75ºC;
• service life - 40-50 years.

Output

Thus, it turns out that expanded polystyrene is a versatile material with unique qualities. After all, it meets absolutely all the requirements for insulation.

In the video presented in this article, you will find additional information on this topic. In addition, our construction portal has step-by-step instructions for installing polystyrene foam insulators.

The modern market offers customers a wide range of different types of heaters. The material is used not only in regions with harsh winters and capricious weather conditions. It is a practical tool for creating comfortable temperature conditions in various types of premises: residential buildings, government agencies, warehouses and much more.

Extruded polystyrene foam, which is abbreviated as XPS, is very popular. Let's talk about the characteristics and use of the material in more detail.

General characteristics and use

Insulation is used for cladding:

• balconies and loggias;
• basements;
• facades;
• foundations;
• expressways;
• blind area;
• runways.

The material is used for cladding horizontal and vertical surfaces: walls, floor, ceiling.

Renovation specialists point out that XPS boards are among the most common insulation materials. A wide range of applications and technical features played an important role in the popularity of the products.

Due to the high demand in the market, you can often find products from unscrupulous manufacturers who disrupt the manufacturing process. As a result, customers run the risk of buying a low-quality product. Any inaccuracies in production cause a significant reduction in the service life of the insulation and its characteristics.

You will learn more about how to use extruded polystyrene foam in a residential environment.

Characteristics and properties of XPS insulation

XPS looks like a smooth slab on the outside and comes in a color or transparent finish. The fine-pored structure can be seen with the naked eye on a cut. Plates are produced with smooth edges and with the so-called "L" -edge, which ensures reliable adhesion of the insulation elements during installation. The combination of other characteristics created a real sensation when introducing the material to the market:

Water absorption (0.2% at full immersion) is so low that this parameter is often neglected in design calculations. It's all about the structure of the XPS, the cells of which are closed and water does not penetrate into them under any circumstances.Moisture can be absorbed only by cells, the integrity of which is violated when the slab is cut, however, in this case, the amount of absorbed moisture is negligible.

The lowest thermal conductivity coefficient among all known heaters λ = 0.029 W / m * K. This material, like foam, is 97% air, but it undoubtedly benefits from its almost zero hygroscopicity.

The density value (specific gravity) ranges from 25-45 kg / m³, as a result of which even a child can easily lift the XPS cooker. This property determines the ease of installation, as well as the convenience of storage, reducing the cost of material handling.

High frost resistance is also ensured by a low water absorption rate. Thanks to this property, XPS insulation can be used in the Far North.

Resistance to chemical compounds: acids, water, oils, saline solutions, caustic alkalis, bleach, alcohol and dyes based on it, fluorinated hydrocarbons, cement, ammonia, CO2, propane, acetylene, butane, paraffin, as well as to any solvents inorganic origin.

High compressive strength allows the material to be used not only in the insulation of loaded roof structures, but also in the construction of heated sidewalks, roads, railways, and runways. Easy to handle - using a regular knife when cutting

High fire resistance is achieved due to the introduction of special substances into the composition - anti-perenes. Thanks to this technological procedure, XPS insulation is considered a self-extinguishing material, which means that it burns only when it comes into contact with an open flame source.

When burning, it emits harmful and poisonous substances, therefore, like other polystyrene, it is not recommended to use it for internal thermal insulation of premises. According to SNiP 21-01-97 "Fire safety of buildings and structures", as well as Federal Law No. 123, extruded plates of increased flammability can still be used in building structures, and with increased fire safety requirements, extruded polystyrene foam with a flammability group G3 should be used.

Dimensions (edit)

XPS insulation comes in a variety of sizes. The most common sizes: 50x585x1185, 30x585x1185, 20x585x1185, 100x585x1185, 1200x600x50 mm. Choose the appropriate option depending on the size of the structure. If necessary, the canvases can be trimmed without problems.

Structure

Extruded polystyrene foam, made according to all the rules, must have a uniform structure. Be sure to evaluate this when purchasing a finishing material. There should be no voids, grooves, seals or other defects on the canvas. Flaws indicate poor product quality.

The optimum mesh size ranges from 0.05 to 0.08 mm. This difference is invisible to the naked eye. Low-grade XPS insulation has larger cells ranging from 1 to 2 mm. The microporous structure is essential for the effectiveness of the material. It guarantees minimal water absorption and high efficiency.

Weight and density

There is an opinion that reliable and durable thermal insulation should have a high density, which is denoted as weight per m³. Modern experts think this is wrong. Most manufacturers use low density extruded polystyrene foam, while maintaining the quality of the material. This is due to the cost of XPS's main raw material, polystyrene, which is over 70%.

In order to save raw materials (stabilizers, foaming agents, colorants, etc.), manufacturers deliberately make the boards denser in order to create the illusion of quality.

Outdated equipment does not make it possible to produce durable XPS insulation, the density of which is less than 32-33 kg / m³.This indicator is not able to increase the thermal insulation properties and does not improve the performance in any way. On the contrary, unnecessary pressure is created on the structure.

If the material was made from carefully selected raw materials on innovative equipment, then even with a low weight, it will have a high density and excellent thermal conductivity. To achieve this result, it is necessary to comply with the production technology.

Insulation material production.

Insulation Extruded polystyrene foam
Insulation is made from environmentally friendly components using modern automated equipment. The extrusion method used for the production of thermal insulation boards involves a multi-stage process for obtaining a high-quality product. Pre-melted polystyrene granules are passed through a special tool with the addition of a blowing agent to the mass. The final product is a fine-pored insulation. The density of the material depends directly on the ratio of the two main components - the blowing agent and polystyrene.

Advantages of Styrex insulation:

• the percentage of water absorption is close to zero. Plates made of extruded polystyrene foam do not absorb moisture, therefore, they are able to provide reliable protection of the foundation from the effects of groundwater;
• low thermal conductivity of the material makes it in demand in the construction market;
• due to the low weight of the insulation, it is easy, simple and convenient to work with it. When adjusting the material, use a knife;
• extruded polystyrene foam can withstand heavy loads, which makes it possible to use it as a heat-insulating layer when arranging railways and laying a roadbed;
• the ability to resist such processes as decay, the appearance and development of fungi and mold, is due to its biological stability.

The form

By evaluating the shape, you can also say a lot about the quality and efficiency of the material. The most practical XPS boards have an L-shaped edge. Thanks to it, installation is faster and easier. Each individual sheet is overlapped, eliminating the possibility of cold bridges.

When using plates with standard flat ends, foaming will be necessary. This is an additional repair process that requires not only time, but also financial investments.

Thermal conductivity

The main characteristic of the material is thermal conductivity. To verify this indicator, it is recommended to demand from the seller the corresponding document. Comparing the certificates for the goods, you can choose the highest quality and most reliable insulation. It is almost impossible to assess this characteristic visually.

Experts identify the optimal value of thermal conductivity, which is about 0.030 W / m-K. This indicator can change up or down depending on the type of finish, quality, composition and other aspects. Each manufacturer adheres to certain criteria.

Technoplex or penoplex, which is better and what are the differences?

The presented types of insulation are a material obtained from polystyrene. The production technology of these two types of products is the same. It is based on polystyrene foaming and subsequent extrusion. The result is a material that in its volume consists of isolated cells filled with air. Their size is very small and can fluctuate around 0.1mm.

Both heaters have approximately the same volume of static air in the cells, which indicates the approximate values ​​of thermal conductivity. The extrusive method of production of technoplex and polystyrene foam allows obtaining higher strength characteristics than that of expanded polystyrene obtained by the non-pressing method.

Technoplex physical indicators:

• density - about 35 kg / m3;
• thermal conductivity - 0.029-.0.030 W / m * K;
• water absorption by volume, no more – 0.2%;
• compressive strength (10%) - 0.24-0.25MPa;
• flexural strength - 0.35 MPa;
• vapor permeability - 0.018-0.020 mg / m * hour * Pa.

Physical indicators of penoplex:

• density - 29-35 kg / m3;
• thermal conductivity - 0.03 W / m * K;
• water absorption no more - 0.4%;
• compressive strength (10%) - 0.25MPa;
• bending strength - 0.35-0.4MPa;
• vapor permeability coefficient - 0.02 mg / m * hour * Pa.

Analysis of indicators shows approximately the same properties of materials. The choice of a technoplex can be justified if there is a risk of water ingress, since its water absorption is slightly lower. At the same time, foam manufacturers indicate an increased value of flexural strength. When used in these heaters under certain conditions, their difference will be leveled by the tolerances for these parameters, due to the permissible discrepancies in the number of cells with air in a given volume.

The difference in materials in terms of the size of the products produced can be beneficial if the cutting of slabs from some manufacturer is beneficial in terms of the minimum volume of waste, based on the geometric features of a particular building.

Water absorption

The next important quality to pay attention to is water absorption. You can visually evaluate this characteristic only if you have a small sample of insulation with you. It will not be possible to evaluate it by eye. You can conduct an experiment at home.

Put a piece of material in a container of water and leave for a day. For clarity, add a little dye or ink to the liquid. Then estimate how much water is absorbed into the insulation, and how much has become in the vessel.

Some experts use the prick method when evaluating a product. Using a conventional syringe, a little liquid is injected into the web. The smaller the spot sizes, the better and more practical the XPS finish.

Strength

XPS quality insulation boasts excellent durability, even at mid-weight. This characteristic is important during the installation process. Durable slabs are easy and convenient to cut and attach to the structure. Such material does not pose any problems during transportation and storage. High strength allows you to keep the shape of the slabs for a long time, without fear that the material will turn into dust.

If during the installation process you notice the formation of cracks, chips, deformation, and also hear a crack, it means that you have purchased a low-quality product. Be as careful as possible during the installation process so as not to damage the slabs.

URSA XPS N-V

These simple rules will help to make high-quality work on thermal insulation of premises and will help to avoid many mistakes when working with URSA XPS materials.

Shipping

During transportation, protect the material from possible mechanical damage. Do not squeeze material packages when loading onto a vehicle or van. Also, do not overtighten the material with lashing ropes or other transport devices. This is because strong compression can change the geometry of the URSA XPS boards.

Storage

It is recommended to store the material packed in covered dry rooms or under a canopy. When storing outdoors under a canopy, it is recommended to place packages of material on pallets. Protect URSA XPS from sunlight during storage. URSA XPS boards should not be exposed to direct sunlight for more than 30 days. Store URSA XPS cookers at least 1 m away from heating appliances. Place packages with plates in a horizontal position. The height of the slabs stack should not exceed 5 m.

Unpacking

Remove material from packaging on site immediately prior to use. This will significantly reduce the risk of material damage. The packaging can be used to protect the material from contamination when laying out on a construction site or as bags for collecting construction waste.

Installation

When cutting, place the material on a firm base, if possible on a cutting table. Cut the material with a sharp long knife. Do not use blunt knives, as this can deform the edges of the material and reduce its quality. When using a saw, it is recommended to use technological ventilation (exhaust); in case of severe dust, wear a protective mask and, if necessary, dust-proof goggles.

Do not store or handle URSA XPS cookers near ignition sources, open flames and flames. During the installation of materials, do not smoke, especially if adhesives containing solvents, etc. are used.

During installation, as well as during the entire service life, URSA XPS boards should not be exposed to direct solar radiation for more than 30 days. During installation and further operation, URSA XPS boards should not be subjected to static and dynamic loads exceeding the permissible ones (indicated for each brand).

When installing materials in the structure, follow the recommendations indicated on our website or the recommendations of the manufacturers of thermal insulation systems. Use only URSA XPS grades recommended for your particular design.

Common thicknesses for most URSA XPS materials are 30mm and 50mm. In this case, the required thickness of thermal insulation in the structure can be 100, 150 or 200 mm. To obtain the required thickness, lay the material in several layers. For example, to obtain a thickness of 150 mm, you can lay a material with a thickness of 50 mm in 3 layers. You can find out what thickness of insulation is needed using our calculator.

When installing, lay insulating materials tightly to each other and to the base. When laying slabs in several layers, it is recommended to place the slab joints with an overlap - so that the slab of the next layer overlaps the slab joint of the previous layer by at least 10 cm. This will avoid through cracks and "cold bridges".

One of the ways to fix URSA XPS boards is to stick them to the surface to be insulated. As an adhesive composition, cement-based adhesive mixtures or polyurethane adhesives can be used. It is important to keep in mind that some types of adhesives contain solvents that can damage polystyrene. Therefore, gluing should only be done with adhesives suitable for polystyrene. Recommended brands of adhesive for gluing URSA XPS boards:

Insulated surface material	Recommended brand of glue
Brick, concrete, aerated concrete (exterior walls, basement walls, foundations)	TYTAN STYRO 753 O2 Insta-Stik Ceresit CT 85
Metal, plastic (sandwich panels)	TYTAN STYRO 753 O2 1-component polyurethane adhesives EMFI or Kleiberit

Extruded polystyrene foam can be resistant, moderately resistant, or unstable to a range of chemicals and building materials. During installation and further operation of URSA XPS boards, wood protection agents, bituminous building materials containing solvents, etc., should not be used as adjoining materials.

Resistance of URSA XPS to various substances:

Resilient
Chemical substances	Construction Materials
Water	Bitumen
Salty water	Cold water based bitumen
Alkalis	Lime
Acids (weak and dilute)	Bitumen
Cement	Hydrochloric acid (up to 35%)
Sulfuric acid (up to 95%)	Anhydrite
Hydrofluoric acid
Phosphoric acid
Inorganic gases, liquefied (oxygen, carbon dioxide, etc.)
Alcohol
1% phenol solution
Silicone oil
Moderately stable (with prolonged exposure, rigid polystyrene foam can shrink, damage to the surface is also possible)
Fats and oils	Bituminous adhesive (bitumen with high adhesion)
Diesel oil, fuel oil
Paraffin oil
Petrolatum
Phenol
Unstable
Formic acid	Solvent-based, e.g. gasoline
Acetic anhydride	Tar
Ether
Hydrocarbons, aromatic
Hydrocarbons, halogenated
Hydrocarbons, aliphatic (methane, ethane, propane, butane, heptane)
Petrol
Vapors of camphor oil
Mothballs
Tetrahydrofuran
Ketones, amines

Final work

It is recommended to clean the working area with a vacuum cleaner. To collect waste material and other construction waste, you can use the packaging remaining from the thermal insulation material.

Environmental friendliness and safety

Premium extruded polystyrene foam is an environmentally friendly finish that is completely safe for health and the environment. On the domestic market, there is only one type of XPS material on sale, which has been awarded the Leaf of Life certificate. The document officially confirms the environmental friendliness of the products. The material is safe not only for people, but also for animals and the environment.

The use of XPS insulation fully complies with the norms of SNiP 21-01-97. This regulation refers to the section "Fire safety of buildings and structures". SNiPs - approved rules and regulations in the construction industry.

Specifications

The main parameters of the insulation of this category: thermal conductivity coefficient (0.029-0.034 W / (m * C)), moisture absorption index no more than 0.4%, density (within 38-45 kg / m3), insignificant vapor permeability (0.013 Mg / (m * h * Pa)).

Insulation specifications

Technical characteristics also include the flammability class, and polystyrene foam plates represent the highest hazard classes: G3, G4. In addition, the dimensions of the material determine a number of parameters (absorption of impact noise, strength, thermal insulation properties).

Dimensions (edit)

The standard width of the slabs is represented by the only option - 600 mm. However, other sizes can vary significantly. For example, the length of the product is mainly found in two values: 1200 mm and 2400 mm.

Types of structure and material edges

Polystyrene foam thickness: 30-100 mm, with the exception of 70 and 90 mm. Regardless of what dimensions of the plate are chosen, it will be easy to work with the material due to its low weight.

However, thicker polystyrene foam products are characterized by increased resistance to heat outflow from the room. This means that with the help of such thermal insulation, it is possible to provide increased comfort on objects.

Flammability class

Expanded polystyrene products burn well, therefore they are ranked among the highest flammability classes: G3, G4. Also, this insulation is not prone to self-extinguishing. If a manufacturer claims that its products have similar specifications, it is best to contact those who offer reliable information about the material.

In theory, it is not recommended to use plates for thermal insulation of an object with increased fire safety requirements. However, there is SNiP 21-01-97, according to which the use of such materials is allowed. But it is better to use products of the G3 flammability class.

On the fire safety of expanded polystyrene: using European standards that differ from domestic ones. There, combustibility is determined by three evaluative characteristics: biological, chemical and complex.

In addition, in order to reduce the hazard level of the insulation at one of the production stages, fire retardants are added - substances with the help of which the technical characteristics of the material change somewhat and the plates go into the category of less hazardous (flammability class G1, G2).

Testimonials

Let's summarize the article with opinions about XPS insulation. The Internet has collected a lot of feedback about the product, both laudatory and negative. It's safe to say that most of the reviews are positive. Buyers note qualities such as environmental friendliness, simple installation, excellent performance and much more.

Customers who were unhappy with the purchase said that more effective and practical insulation can be found on the domestic market.

Thermal insulation at any temperature will not hurt. If it is carried out correctly, then in the winter the rooms will become noticeably warmer, and in the summer heat - cooler. Wall insulation will help create a comfortable microclimate both in the apartment and in the work room. Manufacturers have tried and the types of insulation today shine with a variety.

Having come to the market or to the construction supermarket, one can only be surprised at the variety of heaters produced. They lie rolled up and bundled, poured into containers in the form of granules, powders and perlite sand, looking out of the packages with cotton wool. And they are also made in the form of a variety of cylinders, bricks, blocks and slabs. What should you choose? In principle, it is not the form that is most important, but the content. More on that later.

If you understand the characteristics of insulation materials, then you can easily choose exactly the one you need. The main property of a heat insulator is its thermal conductivity. It shows how much heat can pass through a given material. There are two types of thermal insulation:

• Reflective insulation reduces heat consumption by reducing infrared radiation.
• Thermal insulation of the preventive type (it is used in most cases) involves the use of insulation with a low thermal conductivity. In this capacity, one of three types of materials can be used: inorganic, organic or mixed.

Preventive type thermal insulation

Organic heat insulators

Organic heaters are widely represented in the modern construction market. For their manufacture, raw materials of natural origin (waste from agricultural and woodworking industries) are used. Also, some types of plastic and cement are part of organic heat insulators.

The resulting material has a high resistance to fire, does not get wet, does not react to biologically active substances. It is used where the surface does not heat up above 150 degrees. An organic heat insulator is often used as the inner layer of a sandwich construction. These are, for example, triple panels or plastered facades. Next, consider what types of organic insulation are.

1. Arbolite insulation.

This fairly new building material is made from small sawdust, shavings, chopped straw or reeds. Cement and chemical additives are added to the base. These are calcium chloride, sulphate alumina and soluble glass. At the last stage of production, the products are treated with a mineralizer.

The characteristics of wood concrete have the following:

• Density - from 500 to 700 kilograms per cubic meter.
• The coefficient of thermal conductivity is from 0.08 to 0.12 watts per meter per Kelvin.
• Compressive strength - from 0.5 to 3.5 megapascals.
• Flexural strength - from 0.4 to 1 megapascals.

2. Polyvinyl chloride foam insulation.

PPVC consists of polyvinyl chloride resins, which after porization acquire a special foamy structure. Since this material can be both hard and soft, it is a versatile heat insulator. There are various types of insulation materials for walls, roofs, facades, floors and entrance doors made of PVC. The density (average) of this material is 0.1 kilograms per cubic meter.

3. Chipboard insulation.

Chipboards are basically fine chips. It is nine-tenths of the total volume of the material. The rest is synthetic resins, antiseptic agent, antiprene, water repellent.

The characteristics of the chipboard have the following:

• Density - from 500 to 1000 kilograms per cubic meter.
• Tensile strength - from 0.2 to 0.5 megapascals.
• Flexural strength - from 10 to 25 megapascals.
• Humidity - 5 to 12 percent.
• The absorption of water by the material is from 5 to 30 percent.

4. Insulation from DVIP.

The composition of the wood fiber insulation board is similar to particle board. The basis is either wood waste, or trimmings of straw and corn stalks. It may even be old paper. Synthetic resins are used to bond the base. The additives are antiseptics, fire retardants and water repellents.

The characteristics of the DVIP are as follows:

• Density - no more than 250 kilograms per cubic meter.
• Flexural strength - no more than 12 megapascals.
• The thermal conductivity coefficient is up to 0.07 watts per meter per Kelvin.

Wood fiber insulation.

5. Polyurethane foam insulation.

Polyurethane foam is based on polyester, to which water, emulsifiers and diisocyanate are added. Under the influence of a catalyst, all these components enter into a chemical reaction, forming a new substance. It has a good level of noise absorption, is chemically passive and is not afraid of moisture. In addition, PU foam is an excellent heat insulator. Since it is applied by spraying, it is possible to process walls and ceilings of complex configuration. In this case, cold bridges do not appear.

Characteristics of polyurethane foam:

• Density - from 40 to 80 kilograms per cubic meter. Upon reaching a density of 50 kilograms per cubic meter, PUF becomes moisture resistant.
• The thermal conductivity coefficient is from 0.019 to 0.028 watts per meter per Kelvin. This value is the best of all modern thermal insulation materials.

Application of polyurethane foam insulation to the surface of the walls.

6. Mipora (penoizol).

If you beat the urea-formaldehyde resin, more precisely, its water emulsion, you get a mipora. To prevent the material from being brittle, glycerin is added to the raw material. Sulfonic acids derived from petroleum are added to form the foam. And the organic acid serves as the catalyst that promotes the solidification of the mass. Mipora is sold both in the form of crumbs and in blocks. If it is supplied in liquid form, then it is poured into special cavities during construction. There, at room temperature, it becomes hard.

Mipora characteristics:

• Density - no more than 20 kilograms per cubic meter. Compared to cork, this figure is about 10 times less.
• The thermal conductivity coefficient is about 0.03 watts per meter per Kelvin.
• The ignition temperature is over 500 degrees. If the temperature is below this value, then this material does not burn, but only undergoes charring.
• The disadvantages of the Mipora are its vulnerability to aggressive chemicals, as well as strong absorption of water.

• See material >> Technical characteristics of penoizol, its properties and disadvantages as a heater

7. Expanded polystyrene.

Expanded polystyrene, aka PPS, aka polystyrene, is 98 percent air. The remaining 2 percent is polystyrene, which is obtained from petroleum. Even in the composition of expanded polystyrene there is a small amount of modifiers. In particular, they can be flame retardants.

Properties of PPP:

• The thermal conductivity coefficient is from 0.037 to 0.042 watts per meter per Kelvin.
• Waterproofing qualities are high.
• Corrosion resistance - high.
• Resistance to bioagents and microflora is high.
• Flammability is low. The material is capable of decaying on its own. If polystyrene foam nevertheless ignites, then it emits heat energy 7 times less than wood.

Expanded polystyrene plates.

Plates of simple polystyrene can also be attributed to this type of insulation.

8. Foamed polyethylene insulation.

If a foaming agent (one of the types of hydrocarbons) is added to polyethylene during the manufacturing process, then we get a material with numerous small pores inside. It has good vapor barrier properties and excellent protection against external noise.

Foamed polyethylene properties:

• Density - from 25 to 50 kilograms per cubic meter.
• The thermal conductivity coefficient is from 0.044 to 0.051 watts per meter per Kelvin.
• Application temperature range - from minus 40 to plus 100 degrees.
• Moisture absorption is low.
• Chemical and biological passivity is high.

Foamed polyethylene in rolls is often produced in a special shape for pipe insulation.

9. Fibrolite.

Taking as a basis narrow and thin wood shavings, which are also called wood wool, adding cement or a magnesian component for binding, we get fibrolite. It comes in the form of slabs. This material is not afraid of chemical and biological aggressive influences. It protects well against noise, and can also be used in rooms where it is very humid. These are, for example, swimming pools.

Fiberboard characteristics:

• Density - from 300 to 500 kilograms per cubic meter.
• The thermal conductivity coefficient is from 0.08 to 0.1 watts per meter per Kelvin.
• Fire resistance - high.

10. Sotoplast insulation.

As a rule, this material consists of hexagonal cells that resemble honeycombs - hence the name. However, there are types of honeycomb, where the shape of the cells is different from the hexagon. The filler is a special fabric or paper based on carbon, cellulose, organic or glass fibers coated with a film. These fibers are bonded with thermosetting resins - phenolic or epoxy. The outer sides of honeycomb panels are thin sheets of laminated plastic.

How is STIREKS extruded polystyrene foam produced?

This heat-insulating material is manufactured in accordance with the quality standards established at the enterprises of the USA, Germany, which were the first to produce it. Raw material - polystyrene granules, is placed in a pre-frother - a container with a bottom in the form of a sieve through which hot steam is passed. Foaming of granules takes 5 minutes at temperatures over 100 degrees Celsius. Under the influence of high temperature, the base of the granules - pentane, is activated.

Activation of pentane leads to "swelling" of the granules, an increase in the volume of the initial amount of raw materials by 30-50 times. The resulting mass is pushed out by pressure into an intermediate container. They carefully monitor that the raw materials do not stay in containers for longer than the prescribed time. Constant monitoring ensures that the polystyrene granules turn into a reliable thermal insulation material.

After foaming, the mass is dried in a special hopper. They use devices consisting of a metal base, an airtight "bag". In such devices, a large number of foamed granules are compactly placed, which is dried in no more than a day. Polystyrene slabs are formed using a block mold. The block-mold is heated with steam, polystyrene granules are poured into it, which are foamed again. The resulting slabs are cooled in the workshop, cut and packed.

The secondary foaming process is strictly controlled: too early, late completion worsens the quality of thermal insulation boards, which become brittle, brittle.

Manufacturing features

Plates of STIREKS expanded polystyrene are 95% air. They are produced with the addition of a mixture of special freons - 142B, 22. These freons are safe, non-toxic, and are replaced by air during storage.

The composition of the heat-insulating material includes fire retardants - substances that prevent the maintenance of combustion. The products contain a minimum amount of dyes, lightening agents - nucleators.

Varieties of expanded polystyrene

"STIREKS" M30 ("STANDARD", "STANDARD +") has a density of 26 kg / m³, is used for thermal insulation of roofs, floors, balconies, loggias.

Density M35 ("PROFI", "PROFI +") - 28 kg / m³; the material is suitable for insulation of roofs, floors of foundations.

There is a type of expanded polystyrene M45 with an increased amount of polystyrene granules. Its density is 38 kg / m³, the scope of application is industrial, railway, road construction.Thermal conductivity of polystyrene varieties - 0.026 W / (m * 0С).

Reflective insulation

Heaters, called reflex, or reflective, work on the principle of slowing down the movement of heat. After all, every building material is capable of absorbing this heat and then emitting it. As you know, heat loss occurs mainly due to the exit of infrared rays from the building. They easily penetrate even materials with low thermal conductivity.

But there are other substances - their surface is capable of reflecting from 97 to 99 percent of the heat reaching it. These are, for example, silver, gold and polished aluminum without impurities. By taking one of these materials and building a thermal barrier with a polyethylene film, you can get an excellent thermal insulator. Moreover, it will simultaneously serve as a vapor barrier. Therefore, it is ideal for bath or sauna insulation.

Reflective insulation today is polished aluminum (one or two layers) plus polyethylene foam (one layer). This material is thin, but gives tangible results. So, with a thickness of such a heater from 1 to 2.5 centimeters, the effect will be the same as when using a fibrous heat insulator from 10 to 27 centimeters thick. As an example, let us name Armofol, Ekofol, Porileks, Penofol.

A type of reflective insulation.

So, we have listed all types of insulation and their characteristics. When choosing one of them, pay attention to the possibility of its complex application. After all, it's not bad if this material not only insulates your house, but also protects against noise and gusts of wind.