Modern building technologies as a wall material increasingly offer blocks of various materials instead of bricks. They differ in size, properties and price. Each type of block has its own sphere of preferred application, but all of them are capable of replacing bricks, both in residential and industrial construction.

In order to choose the right blocks, which in each case will show only their positive characteristics, it is necessary to compare them by the main parameters. Physico-chemical properties of materials determine their behavior in the wall under load and in many respects affect the microclimate in the house.

The article will consider the main types of blocks that are used in private and industrial construction: aerated concrete; foam concrete; ceramic; arbolite; expanded clay concrete.

The analysis will concern not only the properties of a particular block, but also their interaction with other types of building materials, the complexity of preparatory and finishing works, the need to strengthen the structure, and the life of the unit. An attempt to determine which blocks are best for building a house will be based only on objective data, without a bias in advertising of one kind or another.

Blocks for building a house which are better to use

What blocks are used for building walls of the house and their brief description

Aerated concrete blocks

One of the most common types of cellular concrete. It differs in closed pores, as a result of which it absorbs moisture very weakly. In the production of blocks, natural materials are used - lime, Portland cement, water and quartz sand. Aluminum powder is used as a blowing agent.

After mixing the components in a certain proportion, the raw materials are placed in molds and loaded into autoclaves, where they are exposed to high-pressure water vapor. There they harden over a period of time and acquire their main properties - dimensional accuracy, low weight, and high enough density.

In addition to autoclave hardening, blocks can be made from the same material by natural drying in the open air. In their parameters, they are significantly inferior to the first.

By purpose, the blocks are divided into:

  • heat insulating;
  • structural and heat insulating;
  • constructional.

Their differences are in compressive strength, thermal conductivity and density.
The dimensions of the blocks are 600x200-300x80-400 mm (LxWxH). The shape of the blocks may be different. For the construction of load-bearing walls, blocks with a groove / crest surface relief are used. Partitions and secondary walls are built from ordinary rectangular blocks with smooth edges. U-shaped are used for mounting armo-belts and jumpers over door or window openings.

Aerated concrete blocks

Foam concrete blocks

A type of cellular concrete. It is made from sand, cement and water with the addition of blowing agents. In the form of loose foam, the raw material is poured into molds for finished blocks or in large formwork structures. After solidification within 10 to 12 hours, collapsible molds open and foam blocks are removed for further hardening.

If the blocks are manufactured using cutting technology, then the massive block is kept in the formwork for several hours (4-10), then it is removed and the workpiece is cut into smaller blocks of appropriate sizes with special steel strings, chain or band saws.

In its density of frost resistance, foam concrete can be compared with aerated concrete, but it is inferior in strength and accuracy of forms. By their properties, they are suitable for the construction of houses no higher than three floors.But in monolithic reinforced concrete construction, foam concrete is very popular because of its lightness to fill the openings between the supporting parts of the frame.

Foam concrete blocks

Ceramic blocks

Made from the same material as normal. brick - clay and water. Billets are fired in furnaces and get the specified hardness. But with a much larger size than a conventional brick, blocks are almost twice as light. This is determined not only by the fact that through the voids are provided in the block, but also by the fact that during the preparation of raw materials the clay is mixed with sawdust or other combustible material. In the process of firing, impurities burn out and the material becomes porous, and, therefore, lighter.

The standard dimensions of the ceramic block are 250 - 510x250-380x219 mm. Large sizes allow you to masonry twice or even three times faster than brick. Lighter walls can save on the foundation, and the porous structure - on the insulation.

From ceramic blocks, houses of any number of storeys are built. Here, the material is used for external and internal load-bearing walls, partitions, filling openings.

Ceramic sides

Arbolite blocks

Another type of blocks, relatively little known to non-specialists in the construction business. In its technical essence, arbolite is a coarse-grained concrete in which such seemingly incompatible materials as wood and cement are combined. In production, wood chips are mixed with a cement-sand mixture, diluted to a semi-liquid state, and poured into molds.

From this light and durable material are made:

  • heat insulating plates;
  • mixtures for pouring into the formwork in place;
  • masonry blocks;
  • large-format mounting blocks.

For the construction of buildings, blocks of standard 500 × 300 × 200 mm are used, but other sizes can also be found on sale - they are regulated by GOST 19222-84, but many manufacturers produce blocks according to the technical specifications developed at the enterprise itself. But well-known factories seek to produce material in a standard size, or a multiple of it - this facilitates and speeds up the process of walling.

For the production of blocks, chips of 40 × 10 × 5 mm are used (maximum). Some unscrupulous manufacturers, along with wood chips, or even instead of it, use bark, shavings, straw. But such blocks do not meet the requirements for wood concrete and can be used only for the construction of utility structures.

In addition to the main raw materials, various chemical additives are used in arbolite, which increase the strength and water resistance of products. These additives neutralize compounds present in the tree that prevent the cement from sticking to the chips. As a result of chemical treatment, the tree receives a level of adhesion to cement no worse than gravel or gravel.

Of the additives most commonly used are:

  • liquid glass;
  • calcium chloride;
  • alumina sulfate;
  • slaked lime.

In an industrial production method, the mixture is poured into molds and pressed by a vibration method. With the exact dosage of the components and the correct choice of the vibration mode, the blocks are homogeneous in density throughout the volume. According to this parameter, two types of wood concrete are produced - structural, with a density of 500 to 850 kg / m3 and heat-insulating, unsuitable for load-bearing structures. Its density is in the range of 300 - 500 kg / m3.

Arbolite blocks

Expanded clay blocks

Expanded clay wall blocks are made by vibration casting into finished molds. The raw materials are cement, expanded clay and sand or dolomite. The classic block, made according to GOST 6133-99, contains up to 50% expanded clay and about 50% cement. Such blocks are used for the construction of walls and partitions, filling openings of frame structures.

The dimensions of the blocks are 390x190x185 mm or 390x190x90 mm, which allows the construction to be carried out very quickly. The cavities inside the blocks perform the functions of stiffeners, reduce weight and increase heat-saving properties.One of the walls, perpendicular to the direction of the cavities, is continuous, which allows to reduce the flow rate of the solution, laying blocks in the wall with holes down.

Depending on the fillers and the proportion of expanded clay / cement, a standard block can weigh from 9 to 21 kg, density - from 500 to 1800 kg / m3. Blocks are used in the bearing walls of houses up to 3 floors only with the installation of armored belts and reinforced concrete piping. But the main scope of application is partitions, filling frames, fences, fences, outbuildings.

Expanded clay blocks

Comparison of blocks used for walling

All types of wall blocks can be used in construction, observing certain restrictions inherent in one or another of their types. In order to make the picture of which blocks it is better to build a house more clear, you need to not only talk about each type separately, but also make a comparative analysis of them in terms of the main parameters.

The most significant characteristics are as follows:

  • Strength;
  • Environmental friendliness;
  • Fire safety;
  • Frost resistance;
  • Thermal conductivity and the degree of need for insulation;
  • Steam and air permeability;
  • Shrinkage;
  • The need for reinforcing masonry;
  • Requirements for the type of foundation;
  • Type of ceilings and the need for an armored belt;
  • The need for exterior decoration materials;
  • Cost of blocks;
  • The cost of masonry.

Basic data on building materials are given in the table:

Block viewDensity, kg / m3Mass in the wallWater absorption,%Thermal conductivity, t / M * kFrost resistanceStrength
Gas block
gazobetonnue bloki t
300 - 1200 100 - 900 20 - 25 0,1 - 0,4 35 0,5 - 25
Foam block
penobetonnue bloki t
300 - 1200 100 - 900 10 - 16 0,1 - 0,4 35 0,25 - 12,5
Expanded clay block
keramzitobetonnue bloki t
300 - 1500 900 - 1000 50 0,15 - 0,45 25 - 75 50- 150
Arbolite blocks
arbolitovue bloki t
500 - 900 300 - 700 75 - 85 0,2 - 0,3 25 20 - 50
Ceramic block
keramicheskii blok t
700 - 900 600 - 800 12 - 15 0,1 - 0,2 50 2,5 - 25

Strength

Strength refers to the ability to withstand external physical effects of compression. The main indicator is the brand. It shows the ultimate load in kg / cm2that the material can withstand before fracture begins. For example, M-175 shows that the load is 175 kg / cm2 may cause damage to the material. For comparison, the brand of brick in multi-story buildings should be at least M150, in single-story buildings - M100. Of the blocks, claydite-concrete have the greatest strength. The only problem is that these blocks are often produced in artisanal conditions and because of the economy, not all manufacturers can provide the indicated strength.

Frost resistance

Frost resistance of the MPC is indicated by a figure that shows the number of cycles of complete freezing and thawing of the material that it can withstand before the destruction of the internal structure. As a rule, the material does not completely freeze in the wall even in harsh winters, so the indicator can be considered relative. The level of Mrz 35 is quite acceptable for middle latitudes. Most varieties of blocks correspond to this indicator.

Density

Density - weight per unit volume of the material, measured in kg / m3. The parameter is important in that the pressure of the wall on the foundation depends on it, and, therefore, the need for a less or more heavy foundation. As a material for the construction of load-bearing walls, it is best to use blocks with a density above 800 kg / m. On the one hand, the higher the density, the better the strength of the material and the walls erected from it. But density has a downside. The higher it is, the greater the thermal conductivity of the material, which means that more funds will be needed to warm the house.

Thermal conductivity

Thermal conductivity - shows how fast the heat flux is transmitted through the thickness of the material. The higher the thermal conductivity, the less heat it can save in the house and the thicker the thermal insulation must be installed on the walls. The warmest materials are aerated concrete and foam concrete. Almost all types of blocks have both thermal insulation and structural, and structural versions. The scope of each variety is different.

Moisture absorption

This parameter shows the ability of the material to absorb some moisture. When compared with brick, then this indicator for all types of blocks is not at the highest level. That is why walls built from all types of blocks need external decoration with facade materials.

But, even comparing the data in the table, to make a final conclusion about what types of blocks are better for building a house, it is necessary to take into account such an important parameter as the cost of the whole process. In this case, it is necessary to take into account such significant items of expenditure as the costs of the foundation, insulation, reinforcement, and exterior decoration. Sometimes cheaper blocks turn out to be much more expensive with full costing of their purchase and installation costs and additional operations.

Shrinkage

To determine which blocks it is better to build a house from, you can study all the technological processes of their installation and the phenomena that occur in the wall after construction. For example, attention is rarely paid to such an important thing as shrinkage. Among all these materials, the most susceptible to such a rather unpleasant, but predicted phenomenon of walls of aerated concrete and foam blocks.

Expanded clay and ceramic blocks practically do not shrink, which are equal in this parameter to ordinary brick. Arbolite has a very low shrinkage, but only if it is really high-quality. This parameter is determined by the properties of the material, but if the masonry technology is violated, then shrinkage can be expected from any material, up to the appearance of cracks on the walls.

Type of foundation

According to the type of foundation required for the construction of a low-rise building, all blocks require tape monolithic foundations of medium depth. This is one of the most economical foundations, taking into account the cost of its installation in relation to strength and durability.

If you build walls from foam blocks and wood concrete up to 40 cm thick, then you can make a grillage foundation on screw piles. But this type of foundation should take into account the type of exterior decoration. If it will be made of front brick, then the foundation, nevertheless, needs to be made tape or pour a solid concrete slab.

Masonry reinforcement

When laying walls, mesh reinforcement is performed using all types of blocks, under the ceiling the armopoyas is poured along the entire perimeter, standard factory jumpers or cast concrete are placed above the window and door openings.

Masonry reinforcement

Erection speed

Building from blocks compared to brick is faster, even taking into account the time spent on additional operations in the form of masonry reinforcement.

Exterior finish

One of the most expensive operations. Almost all known options are used here - from the “wet” facade with insulation, to the ventilated and cladding with brick, siding, lining. Gas blocks and foam blocks, when installing an external finish, require a ventilation space - high vapor permeability of materials requires removal of excess moisture from the wall.

Expanded clay and ceramic blocks are in the best harmony with brick facades and plaster, they are most consistent with these materials both in physicochemical characteristics and in application technology.

Construction cost

To determine which blocks are best for building a house, you can simply calculate the costs of the entire construction cycle. If for 100% we take the cost of masonry from ordinary solid brick, then the cost of one meter of cubic blocks with external decoration with homogeneous materials will be:

gazobetonnue bloki k
Gas block 
96%

penobetonnue bloki k
 Foam block
93%

keramzitobetonnue bloki k
Expanded clay
83%

arbolitovue bloki k
Arbolite
80%

keramicheskii blok k
Ceramic block
80%

Obviously, the use of blocks is beneficial in any case - in addition to winning money, they give a double advantage in construction time, which also results in significant cost savings.

What blocks did you decide to buy for building walls at home?

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