Perlite insulation: pros and cons, characteristics, perlite insulation technology


In the modern world, there are more and more opportunities in the manufacturing sector. Technological capabilities made it possible to get acquainted with the latest material called perlite. This is a unique product that in a short time has taken a high place in the construction market.

The technology for producing perlite is quite complex. It is made from glass-like hard rock of volcanic origin. The raw material has the ability to increase significantly when heated to a certain extent. This swelling process during heat treatment, together with the addition of other materials, makes it possible to obtain heat and sound insulating raw materials with excellent characteristics.

Perlite

Technical characteristics of insulation

Expanded porous perlite made from rock is used for insulation

Rock is formed in a lava flow during a volcanic eruption. It is formed as a result of the action of groundwater on volcanic glass. The mineral has a specific structure and easily breaks down into separate round parts - pearls. Another distinctive feature of porous rock is its water content of about 1% of the total volume.

In construction, expanded perlite insulation is used, which has undergone heat treatment in ovens at a temperature of 1100°C. When heated, moisture evaporates, giving the mineral a porous structure and increasing its size several times. The material becomes light and acquires heat-insulating properties. It is manufactured with different fraction sizes from fine sand to crushed stone. The dimensions of construction perlite are 0.16-1.25 mm, agroperlite – 1-5 mm. Perlite sand has a wide variation in density - 40-200 kg/m3.

Specifications:

  • thermal conductivity – 0.043-0.052 W/m*K;
  • humidity by weight – no more than 2%;
  • unevenness of grain sizes – up to 15% by volume of the product;
  • moisture absorption – up to 400% of its own weight.

The insulation is chemically neutral and is not affected by alkalis and weak acids. It does not rot under the influence of moisture, microorganisms and rodents do not live in it. The heat insulator is used in a wide temperature range from -200°C to +900°C. The material is environmentally friendly for people and does not contain toxic impurities or heavy metals.

Dimensions

Rolls of such material may vary in size depending on the type.

  • For all types of material, except ALP, the standard thickness is from 3 mm to 5 mm, as well as 8 mm and 10 mm. Their width of 1200 mm remains unchanged, and the length varies from 15 m to 30 m per roll.
  • ALP-penofol is produced in a thickness of 3 mm, a width of 580 mm and a roll length of 15 m.

Since this is a registered trademark, it is produced exclusively by . But you can easily find a replacement for this insulation on the construction market. Materials such as isolon, tepofol, magnoflex and porylex can be used both to retain heat and prevent moisture penetration. Some materials may be even more economical than penofol, however, in quality and quantity of properties it surpasses all of the above.

The price of foam insulation depends on the thickness of the material, markings and roll length. Classic A-penofol costs from 160 rubles. per square meter, B-penofol costs from 180 rubles. for the same footage. And self-adhesive heat insulators are presented on the market in the price category from 230 rubles. per square meter and above.

Pros and cons of perlite

Perlite plaster also has heat-insulating properties
When choosing bulk insulation, consumers have to compare several materials: expanded clay, expanded polystyrene granules, vermiculite or perlite. Each variety has characteristics that are taken into account when making a decision. Loose-fill volcanic glass insulation is highly effective. The material does not shrink like granulated polystyrene foam and does not get wet like expanded clay. The main advantages of insulation are:

  • Low thermal conductivity of perlite, which is provided by many voids in the porous structure of the mineral. Also, the structure of the mineral contributes to effective noise absorption.
  • Light weight, allowing up to 40% reduction in the total weight of the structure. Light load-bearing walls do not require a massive foundation.
  • The ability to operate in different temperature ranges does not limit the use of the material.
  • Fire resistance guarantees the fire safety of the insulation. It is able to stop the spread of fire. When heated, it does not emit smoke or toxic substances.
  • The natural mineral is environmentally friendly and contains no harmful impurities.
  • Loose insulation evenly fills the space, fits tightly, leaving no cold bridges. The material does not cause difficulties when filling like foam granules.

Fragility is the main disadvantage of perlite. The mineral is easily destroyed, turning into dust. The material loses weight during open transportation and creates inconvenience during backfilling. Working with it requires the use of protective equipment: respirators, goggles, gloves. To make sand less dusty, it is moistened with water before use.

Perlite's ability to absorb moisture is not always a negative characteristic. It can easily release water in the form of steam. The material prevents condensation from appearing on the walls. For normal operation of the insulation, it is necessary to ensure the removal of excess moisture to the outside.

Main advantages

Perlite, like other materials, has its pros and cons. But despite the shortcomings, it is an integral part of any construction.

The following advantages of perlite as insulation can be highlighted:

  1. Lightness, which allows you to place it inside any frame structure without increasing its strength.
  2. Resistance to fairly sudden temperature changes allows it to be used outdoors in various weather conditions. Can withstand -220 to +900℃.
  3. Environmental safety, lack of toxicity in any operating conditions.
  4. It is not an allergen for the animal world or people.
  5. Resistant to most acid and alkaline compounds.
  6. Not subject to corrosive processes.
  7. Thanks to the density formed between the particles of the material during laying of the layers, a high level of sound insulation of the entire structure is achieved. Therefore, there is no need to use an additional layer of insulation of a different origin.
  8. Absolutely not subject to deformation from exposure to high temperatures at household levels. Ideal for installing indoor floor heating systems.
  9. Average price range in comparison with materials used for similar work.
  10. It is highly efficient, rational and ergonomic in its use.

It would be appropriate to note that it is inappropriate to use perlite in rooms with constantly increased humidity by more than 10% or in conditions of a consistently humid climate. It is not resistant to these influences.

When working with this material, you need to be aware that aluminosilicate dust is released during active handling. Very small particles of it can harm the human body if they get on the mucous membrane

Therefore, during the process of mechanical sawing of blocks and mixing the solution, it is necessary to use precautions and protect exposed areas of the body

Perlite insulation

Application area

For flowers, perlite is used as a leavening agent.
In its natural form, the mineral is used in various economic fields:

  • the food and medical industries use the mineral as a cleaning filter;
  • Perlite loosening additives are popular in agriculture.

When constructing buildings, expanded perlite is usually used. It allows you to ensure optimal sound and heat insulation of walls, floors, and roofs. The insulation is effective when the backfill and composition of the insulating products are uniform. It is used to fill the masonry of external and internal walls, when installing a heated floor system, and insulating floors.

Wall insulation

Walls between two rows of bricks are insulated with perlite

Conclusion

Despite its many advantages, this material is not the cheapest option, and the use of perlite is economically justified in the regions where it is produced, since delivery significantly increases the already not the most budget price. But it is guaranteed to be formaldehyde free and fire resistant, so no fire resistant protective layer is needed.

For information on other types of heat insulators, see the article on choosing insulation for a private home. The possibility of using perlite as a filler is discussed in the material on warm plaster. Perlite can also replace expanded clay backfill in a dry screed. In the video there is an alternative option, insulating the ceiling with polystyrene foam.

Subscribe to our Telegram channel Exclusive posts every week

We study all known varieties

In total, there are 4 forms of release of this insulation: backfill (it is also called sand), slabs (outwardly similar to penoplex), roofing models and dry building mixtures. These varieties have some features that you should know.

Backfill insulation

The first form factor of Perlite to emerge was loose insulation. The main task of this material in the construction of houses is to lighten the structure (it is lighter than a standard cement-sand mixture) and increase its thermal insulation qualities. This layer is usually used for backfilling floors and interfloor layers. It is also often used to fill voids in wall masonry. Less often it is used in combination with (or instead of) warm plaster.

The most convenient and practical form is slabs

According to official statistics, about 60% of all Perlite produced on the planet goes to create thermal insulation boards. They are obtained by hydraulic pressing, making them very convenient to use. The binder may differ depending on the specific type (bitumen, lime, polymer compounds, cement, liquid glass, etc.).

This category of materials has quite high hygroscopicity. Therefore, it is mostly used for interior decoration. However, when laying an additional moisture-proof layer, it can also be used for exterior finishing. However, this is not very justified from an economic point of view.

Insulation of coatings with slabs: mineral wool or perlite on bitumen mastic in one layer

LOCAL RESOURCE GIVEN GESN 12-01-013-03

NameUnit
Insulation of coatings with slabs: mineral wool or perlite on bitumen mastic in one layer100 m2 of insulated covering
Scope of work
01. Preparing the base. 02. Primer of the base. 03. Laying slabs on bitumen mastic. 04. Preparing the primer.

PRICE VALUES

The price list shows the direct costs of the work for the period of March 2014

for the city of Moscow, which are calculated on the basis of
2014 standards with additions 1
by applying indices to the prices of the resources used.
2000
federal prices .
The following indices and hourly rates from the “Union of Cost Estimating Engineers” were used: Index to the cost of materials: 7.485
Index to the cost of machines:
11.643
Hourly rates used: The monthly wage at a given hourly rate is indicated in parentheses.
Hourly rate 1st category: 130.23 rubles. per hour ( 22,920
) rub.
per month. Hourly rate 2nd category: 141.21 rubles. per hour ( 24,853
) rub.
per month. Hourly rate 3rd category: 154.46 rubles. per hour ( 27,185
) rub.
per month. Hourly rate 4 categories: 174.34 rubles. per hour ( 30,684
) rub.
per month. Hourly rate 5th category: 200.84 rubles. per hour ( 35,348
) rub.
per month. Hourly rate 6th grade: 233.96 rubles. per hour ( 41,177
) rub. per month.

By clicking on this link, you can see this standard calculated in 2000 prices. The basis for applying the composition and consumption of materials, machines and labor costs are GESN-2001

LABOR COSTS

NameUnit Change Labor costs
1Labor costs of construction workers Grade 3.9person-hour45,54
2Labor costs for drivers (for reference, included in the price of the EV)person-hour0,55
Total labor costs for workersperson-hour45,54
Workers' compensation = 45.54 x 172.35Rub.7 848,91
Payroll for drivers = 124.27 (for calculating invoices and profits)Rub.124,27

Work schedule. Automatic construction according to estimates.

OPERATION OF MACHINES AND MECHANISMS

CipherNameUnit Change ConsumptionSt. unit.Rub.TotalRub.
1020129Tower cranes when working on other types of construction 8 tmach.-h0,351005,96352,09
2021141Truck-mounted cranes when working on other types of construction 10 tmach.-h0,21303,9260,78
3121011Mobile bitumen boilers 400 lmach.-h1,84349,29642,69
4400001Flatbed vehicles, load capacity up to 5 tonsmach.-h0,281014,92284,18
TotalRub.1 539,74

CONSUMPTION OF MATERIALS

CipherNameUnit Change ConsumptionSt. unit.Rub.TotalRub.
1101-0078Petroleum construction roofing bitumen grades BNK-45/190, BNK-45/180T0,02511452,05286,30
2101-0322Kerosene for technical purposes grades KT-1, KT-2T0,05819512,651 131,73
3101-0594Hot bitumen roofing masticT0,20125374,155 100,20
4104-0004Mineral wool slabs with synthetic binder M-125 (GOST 9573-82)m36,183967,0524 516,37
TotalRub.31 034,61

TOTAL BY RESOURCES: 32,574.35 RUB.

TOTAL PRICE: RUB 40,423.26.

You can see this standard calculated in 2000 prices. by following this link

The price is compiled according to the standards of GESN-2001 as amended in 2014 with additions 1

in prices
of March 2014.
To determine intermediate and final price values, the DefSmeta program was used

Estimate for the construction of a house, renovation and decoration of apartments - DefSmeta
Rental
The program provides an assistant who will turn the preparation of estimates into a game.

Criterias of choice

To select a thermal insulation material with high technical characteristics, you should determine the product labeling. Three main classes of perlite are used in construction - M75, M100 and M150.

The numbers indicated in the markings indicate the bulk density of the material. Which corresponds to thermal conductivity - 0.043, 0.052 and 0.058 Watt/m °C. The lighter the perlite, the higher its heat and sound insulation properties.

The expanded rock is divided into different fractions. For construction, perlite with granules ranging in size from 0.16 to 1.25 millimeters is used. The larger the constituent particles of the material, the lower the level of its fluidity, which worsens the quality of the insulation backfill.

When purchasing perlite for thermal insulation, you should pay attention to the integrity of the packaging and storage conditions. If the material was in a humid environment for a long time, its quality decreased significantly. Another important aspect of the choice is the manufacturer. Some unscrupulous sellers may pass off an artificial construction product as natural foamed perlite.

Features of heated floors in a wooden house

Accordingly, all layers of the “pie” will be laid on the support beams: subfloor, vapor and waterproofing layers, finishing treatment for laying the floor covering and the cladding itself.
Naturally, among all these layers there will be a heating system. The underfloor heating system is laid on top of the rough base with an emphasis on preparing various protective and insulating layers for the system elements. To install a warm floor in a wooden house with your own hands, you can use one of the following methods:

  1. A combination of dry and concrete screed. This is a universal technology that involves laying two types of screed at once, which allows it to withstand heavy loads on the floor. It can be used for a wide variety of heating systems. The dry bulk part of the screed allows for increased hardness and strength to protect the heating elements of the heating system.
  2. Liquid screed over existing floors. This is perhaps the most difficult method, as it requires careful preparation of the wooden beams. Concrete screed is highly valued due to its thermal insulation properties and increased heating efficiency of the entire system as a whole. It is most advantageous to use such a base in rooms with high humidity, cold and heavy flooring.
  3. Free installation with ventilation gap. It is used exclusively for heating equipment as an auxiliary system in relation to the main heating of the house. In combination with ventilation gaps, a powerful heating system cannot be used; additional holes as air outlets will reduce the efficiency of the system.
  4. Application of reflective plates. This option is a compromise if you cannot do without pouring a concrete screed. The plates are used to reflect the flow of thermal energy, increasing heating efficiency.

DIY insulation technology

The process of blowing in expanded perlite sand is not labor-intensive and takes little time. Seams and cracks on walls and cavities in blocks can be perfectly filled with perlite-based mortar, which can be easily made with your own hands by selecting the necessary materials.

Materials

In terms of thermal insulation properties, perlite sand, 30 mm thick, is equivalent to sand-lime brick, 200 mm thick, and mortars with the addition of volcanic sand are effective insulation.
The following are added as binding materials:

  • liquid glass;
  • cement;
  • bitumen;
  • clay, lime;
  • gypsum.

A mixture of perlite and a binder is made in belt mixers at low speeds so as not to disturb the structure of the perlite grain.

From building mixtures you can press products of various shapes, make bricks and other necessary structures.

Sequence of work

Work on insulating the house begins with laying the foundation:

  • the bases of strip foundations and basements are plastered with mixtures containing perlite chips and insulated with heat-insulating blocks;
  • when constructing walls, perlite expanded sand is backfilled every 3-4 rows of masonry, compacting it;
  • Next, a layer of plaster no more than 5 cm thick is applied to the walls.


The voids are filled based on the bulk density for each cubic meter - 70-100 kg of perlite component.
Upon completion of the construction of the walls, they are covered with ceiling slabs, all cracks are carefully sealed and the insulation of the ceiling begins:

  • cover the slabs with cardboard or paper;
  • pour expanded perlite sand 3 cm thick onto it and compact it;
  • filled with cement.

Fly in the ointment, or shortcomings

Of course, they exist, and there are a lot of them, which explains the rather limited use of insulating materials of this type. This is mainly due to vertical insulation. Bulk insulation is quite impractical in this regard.

With the bulk insulation method, strong compaction is required, which requires additional equipment and, accordingly, costs. Otherwise, the material will compact and sag over time. This means that some of the walls will remain without thermal protection, and the house will lose its heat-saving properties.

Pouring granules (or laying cotton wool) requires a certain space for filling or laying. This means that additional formwork will be required - temporary or permanent (another wall at a specified distance from the insulated one). And this will lead to heavier construction of the house, the need to strengthen the foundation and, as a result, to considerable additional expenses and “eating” square centimeters of living space.

You can, of course, add a composition based on cement mortar to the insulation. But here the disadvantages are the same: the need to strengthen the foundation and reduce the usable area of ​​the home. And its main property - flowability - in this case the isolate loses, and accordingly, its sound-insulating and heat-saving properties are significantly reduced.

However, despite all these disadvantages, when insulating a house horizontally, dense “monolithic” insulation is significantly inferior to bulk insulation. Especially if the house has an attic or second floor, that is, when high-quality sound insulation of the second floor floor is needed.

By choosing the right thermal insulation material for your home, you can not only save money, but also build truly high-quality, energy-saving housing. Yes, and nerve-saving too. After all, by protecting residents from street and interior noise, such houses are able to preserve their health for many years not only due to their environmental friendliness, but also a comfortable psychological microclimate.

Popular publications:

Review of high-quality insulation for the home: how to choose the right insulation Modern manufacturers offer a huge selection of all kinds of materials,…

How to dilute acrylic primer? Acrylic primer often comes in the form of a concentrate or dry powder, which...

What is important to know about preparing the surface for installing insulation When the homeowner has a question: how to fix...

Insulation for a frame house Insulation for a frame house With the advent of frame technologies, the dream is to acquire your own…

Operational life

Perlite chips have excellent performance qualities. It has been performing its functions for many years, maintaining its original condition without losing its visual appeal.

The service life of perlite is unlimited, unless it is damaged mechanically.

Perlite has high physical and technical properties, which is why it is so in demand; it is the best among thermal insulation materials.

When purchasing, you need to be vigilant - it is not so easy to find expanded perlite chips on the market and unscrupulous sellers can pass off a fake as real perlite.

How electricity heats the floor in a wooden house

  • single heating cable;
  • heating mats (analogue of a cable fixed to the base in the form of a mat);
  • infrared film 0.5 mm thick (carbon strips between parallel power buses);
  • carbon rods (analogous to film without a film base).

Each method is designed for its own type of coating and has certain advantages and disadvantages. If the floor covering is ceramic tiles or porcelain stoneware and similar materials, it is better to use a single heating cable or heating mats. For floors covered with carpet, laminate, parquet, etc., it is better to use carbon or film heated flooring. This coating effectively transmits infrared rays, heating the entire floor area

For all types of underfloor heating, it is important to determine whether it will be the main or auxiliary heating in the house

It is more advisable to use warm electric floors based on a heating cable or mat on the first floors of the house, taking into account their installation under a cement screed, on which the flooring is then laid. However, warm electric flooring can be done without a cement-concrete screed. The snake cable or mats are laid on top of a metallized reflector lying on a base made of a layer of thermal insulation. Floorboards and flooring are laid on top.

Comparison of perlite with other thermal insulators

To thoroughly understand all the advantages of this material, it is necessary to compare it with existing analogues:

  1. Vermiculite. The production technology of this heat insulator is similar. However, having a porous structure, this material has higher thermal conductivity. In addition, it is more expensive in price;
  2. Expanded polystyrene. It is difficult to fill cavities in walls with this heat insulator. In addition, it is flammable and releases toxic substances when burned;
  3. Expanded clay. It is considered one of the most common insulating materials. And although it is as cheap as perlite, its thermal conductivity is 2 times higher than the latter. However, it is completely unsuitable for thermal insulation of door and window openings;

If you want warm floors, add perlite sand

In the domestic construction market, materials with the addition of perlite are found quite often, but, for the most part, in molded form. Meanwhile, abroad, perlite sand is added to various finishing compositions, including plasters. Such a filler gives building mixtures new properties, enhancing existing characteristics. Thus, with the help of perlite it is possible to obtain thermal insulation, acoustic compounds, fire-resistant coatings, and lightweight mortars.

Underfloor heating based on perlite is considered very effective. For its installation, hydrophobized perlite is used, the fractions of which do not exceed 6 millimeters. After laying the pipelines on the prepared surface, the sand is poured out of the bags and leveled with long slats, and the layer thickness should be 20% greater than the desired coating height.

Features of the flooring system

The traditional version of a water-type floor involves installing pipes in a screed. It is poured with a concrete solution with special additives that increase its thermal conductivity.

As a result, the concrete pad becomes a kind of heat accumulator, which makes it possible to use such heating as efficiently as possible. However, the traditional arrangement method has disadvantages.


The wooden base has low thermal inertia, which prevents the system from functioning normally. To correct this drawback, heat-reflecting plates are installed from metal with high thermal conductivity.

The most obvious is too much weight of the concrete screed. With a solution density of about 2000 kg/sq. m it gives a significant additional load on the base and load-bearing structures.

For reinforced concrete slabs, such a load is quite feasible. For wooden floors - prohibitive. For this reason, the traditional installation method is prohibited in such cases. The so-called flooring system is used here.

It is made in the form of a low flooring, inside of which pipes are located. Wood is most often used for its arrangement, but industrially produced polystyrene flooring has appeared relatively recently.

The pipes are placed in grooves where they are secured. It is known that wood conducts heat very poorly. For this reason, wooden systems cannot be an effective source of heat.

To correct this deficiency, metal heat-conducting elements are inserted into each groove. They also strengthen the structure. There are similar details in polystyrene flooring with metal inserts, the material of which is also a poor heat conductor. In this way, a reliable and durable heating system is assembled.

Its advantages over its traditional analogue can be considered:

  • Light weight of the flooring, which even wooden floors can withstand.
  • Relatively simple assembly, especially when it comes to industrial flooring models.
  • There is no need to wait for the concrete screed to harden. Finishing work can be done immediately after installation.
  • Full maintainability. To carry out repair work, it is enough to lift a fragment of the flooring to provide access to the area with the fault.

Another undeniable advantage of the flooring system is its versatility, which makes it possible to implement a variety of modifications. Most of which are homemade. The main disadvantage of the flooring scheme is rapid cooling. The floor heats up in a short time and gives off heat just as quickly.

A big plus of a water-based floor is the possibility of relatively simple repairs. To get to the damaged fragment, it is enough to remove a section of the floor covering and remove the flooring underneath it

Actually, the heat supply is limited to that which is in the coolant liquid in the pipes. Therefore, when the boiler is stopped, the room will soon cool down. For this reason, deck systems are more often used as an addition to the main heating system, especially in cold regions.

Rating
( 2 ratings, average 4.5 out of 5 )
Did you like the article? Share with friends:
For any suggestions regarding the site: [email protected]
Для любых предложений по сайту: [email protected]