Brickwork is one of four types of artificial stone masonry, along with small block, ceramic and mixed. This type of masonry is one of the most popular and is used everywhere. With the help of this masonry, construction work is carried out on the construction of building walls, supports for bridges, remelting, and the like.
The popularity is due to the ease of implementation and versatility of work. This technology first became known at least from the 8th millennium BC. This is confirmed by excavations of the village of Mehrgarh in Pakistan. Even then they understood that this method was one of the best for construction work.
Table of specific gravity of brickwork
Below is a detailed table to simplify the necessary calculations, including such a parameter as the weight of the brickwork.
| Material | Specific gravity (g/cm3) | Weight 1 m3 (kg) |
| Average value of all types of bricks | 1,7 — 1,9 | 1700 — 1900 |
| Single Ceramic Solid Clay Red Brick | 1,7 — 1,8 | 1700 — 1800 |
| One and a half ceramic solid clay red brick | 1,6 — 1,7 | 1600 — 1700 |
| Double Ceramic Solid Clay Red Brick | 1,5 — 1,6 | 1500 — 1600 |
| Single Ceramic Hollow Clay Red Brick | 1,3 — 1,4 | 1300 — 1400 |
| One and a half ceramic hollow clay red brick | 1,27 — 1,3 | 1270 — 1300 |
| Double Ceramic Hollow Clay Red Brick | 1,1 — 1,27 | 1100 — 1270 |
| Single Ceramic Hollow Clay Red Brick Cladding | 1,2 — 1,7 | 1200 — 1700 |
| One and a half ceramic hollow clay red facing brick | 0,9 — 1,05 | 900 — 1050 |
| Single silicate solid white brick | 1,8 | 1800 |
| One and a half silicate solid white brick | 1,7 — 1,8 | 1700 — 1800 |
| Single silicate hollow white brick | 1,7 | 1700 |
| One and a half silicate hollow white brick | 1,5 | 1500 |
| Double silicate hollow white brick | 1,4 | 1400 |
| Single silicate hollow white brick facing | 1,5 — 1,7 | 1500 — 1700 |
| One and a half silicate hollow white brick facing | 1,3 — 1,5 | 1300 — 1500 |
| Single solid fireclay brick | 1,7 — 1,9 | 1700 — 1900 |
Specific Gravity Calculations
In order to calculate the necessary parameters. To begin with, you need to define the concept itself. So, specific gravity is the quantitative ratio of weight to the occupied volume of the desired substance or material. Such calculations are carried out using the following formula: y=p*g, where y is the specific gravity, p is the density, g is the acceleration of gravity, which in normal cases is a constant and equals 9.81 m/s*s. The result is measured in Newtons, which are divided by cubic meter (N/m3). To convert the resulting value to the SI system, you need to multiply it by 0.102. Approximate values of such a parameter as the specific gravity of brickwork are presented in the table above.
Density is the mass of the desired substance or material, measured in kilograms, which fits in a cubic meter. This parameter often depends on many different factors, such as temperature. The average values of such a parameter as the density of brickwork range from 900 to 2000 kg/m3.
naruservice.com
Ceramic red
To produce ceramic bricks, several types of clay are used, and they are produced by firing. This material is highly durable, able to retain heat and is resistant to environmental influences. But it also has an impressive mass - from 3.5 to 3.8 kg. In order to reduce this indicator, they began to produce porous. It has many voids, that is, with the same dimensions it will be much lighter. It is characterized by an indicator within 2.5 kg.
Therefore, the large size of the finished product does not always indicate significant weight, since this characteristic directly depends on the structure of the product. In this case, the specific gravity of solid and hollow will be equal, since it is determined without taking into account voids, and volumetric will differ significantly. In addition to these two types, facing is also available. It has its own dimensions.
For solid bricks used for the construction of load-bearing walls and partitions, depending on its parameters (width, height, length), 1 m3 can be within:
- for single - 1693-1847 kg/m 3;
- for one and a half - 1515-1630 kg/m 3;
- for double - 1597-1742 kg/m 3.
The working hollow also has various indicators:
- single - 1180-1283 kg/m 3;
- one and a half - 1137-1250 kg/m 3;
- double - 970-1210 kg/m 3.
The lightest is the hollow facing one:
- single - 675-820 kg/m3;
- one and a half - 1023-1630 kg/m 3.
Sand-lime brick
Silicate is no less in demand in the construction industry. It is considered the heaviest. The starting materials for its production are quartz sand and lime. Silicate is characterized by good sound insulation and a longer service life compared to red. Like ceramic, silicate can be used as a working or facing material.
The weight of a brick is significantly influenced by its structure: solid - 3.7 kg, and hollow - only 3.2 kg. Accordingly, the parameters of 1 cubic meter of product will also differ. For a full-bodied worker, the indicators are as follows:
- for single - 1900 kg/m 3;
- for one and a half - 1592-1895 kg/m 3.
The working hollow one is somewhat lighter:
- single - 1640 kg/m 3;
- one and a half - 1400 kg/m 3;
- double - 1305 kg/m 3.
Hollow facing cube:
- single - 1400-1590 kg/m3;
- double - 1210-1405 kg/m 3.
You can, of course, not remember all these norms. It's much easier to calculate them.
To find out the mass of 1 cube, you only need to multiply the number of units by the mass of one.
For example, full-bodied silicate - 3.7 kg. There are 513 of them in a cube. Accordingly, 1 m 3 equals 1900 kg. Some manufacturers supply building materials on pallets of varying capacities. You can determine the mass of a pallet in the same way by multiplying the quantity by the weight of one unit.
ostroymaterialah.ru
Masonry made of silicate, red brick
The mass of red brick varies from 3.5 to 3.8 kg During construction, red (aka ceramic) or silicate (white) types are used. The first one is based on clay, the second one is lime and sand. They are available in different sizes and shapes. It turns out.
#1090;building material. Accordingly, the mass will differ.
The production of red brick from different types of clay is carried out by firing it in special kilns. With high strength, it has good thermal insulation properties. The weight of one of its pieces ranges from 3.5-3.8 kg.
Sand-lime brick is heavier than red To reduce it, manufacturers produce a hollow version weighing an average of 2.5 kg per unit. Due to the presence of cavities, a more voluminous hollow one will weigh the same as a full-bodied one.
The heavy silicate version has good thermal insulation properties. It is more durable than red. At the same time, a full-bodied one weighs on average 3.7 kg, and for a hollow one it’s 3.2 kg. The mass characteristics of the more voluminous version are comparable to the full-bodied type.
According to the functions performed, the following are distinguished:
- workers;
- facing.
Calculations
One cubic meter of mortar is enough for a cubic meter of brick It is necessary to calculate the amount of brick needed when performing work by calculating the volume of the final structure. Based on it, purchase working material.
Everything is not limited to the weight of the bricks: the thickness and number of connecting seams and the characteristics of the bonding mortar are additionally taken into account. To fill voids, more mortar is used than for a solid type.
When performing calculations, it is advisable to focus on measuring the mass indicator of a cubic meter of masonry. For more information on brickwork calculations, watch this useful video:
During construction, one cube of mortar can lay out up to 4 cubes of brick. The specific average weight of the masonry ranges from 1500 to 2000 kg/m3.
In order not to independently calculate the weight of the full brickwork of 1 m3, it is advisable to use the table.
moyastena.ru
How does brick affect the mass of a structure?
To create masonry products, various types of raw materials are used. Most often these are the following options:
- Sand.
- Clay.
- Lime.
Each material has its own characteristics, and the production process can be represented by various techniques. All this directly affects the subsequent weight of a cubic meter of structure.
The most versatile option is standard clay brick. It is made from raw materials such as clay. Methodology: firing in an autoclave oven at high temperature. The mass of m3 of masonry will reach 1.7-1.9 tons. This wide range includes both hollow and solid forms of the material.
Sand-lime brick is no less in demand. It is made from quarry sand, water, quicklime and auxiliary additives. This allows you to improve the characteristics of the material, increasing strength and service life.
One of the modern options is sand-lime brick M150. The main advantage is excellent quality. Modifiers and dyes are additionally added to the composition. The creation process is based on molding, drying and pressing. The result is a mass of a cube of brickwork within 1.5 tons.
Features of calculating a cube structure
A cubic meter of masonry includes some parameters. Among them: 
- The mass of the stone itself.
- Binding mortar or cement.
- Glue.
That is why you need to take into account all the details so that the calculation is correct.
Cement consumption is determined by the type of brick chosen, its dimensions and the width of the seam. On average, 0.3 cubic mortar is consumed per m3 of construction. Weight reaches 500 kilograms.
In accordance with this, the specific gravity of the finished structure also changes. The remainder is 0.7 cubic meters, represented by the masonry material itself. If it is a red brick, the cube will consist of 400 pieces on average, and for the silicate type - 300 pieces. Weight reaches 1.5-1.9 tons depending on the type. Thus, each cubic meter of finished brick structure has a mass of 2-2.5 tons.
Why are calculations needed?
The design documentation includes the dimensions of the future building. To the foundation
met the stated requirements of reliability and strength, it is important to determine the mass m3 of the structure. The calculation is an average volumetric indicator that can be taken from the table.
Knowing the maximum permissible value, it is possible to determine the safety factor for each supporting structure. The greatest loads are for plinths and lower tiers. For them, m3 of masonry should be based not only on standard calculations, but also on qualitative and quantitative characteristics.
When doing design work, it’s worth asking how much a cube of brick construction weighs. This will allow you to avoid shortcomings and defects in the construction process. Having carried out the calculation correctly, you will become the owner of a durable, reliable structure that will last for decades and will not bother you.
pluskirpich.ru
Weight of 1 m3 of brickwork
The main characteristics of such a building material as brick include size, water absorption, frost resistance, thermal conductivity and, of course, weight.
The standard option is a brick with dimensions of 250x120x65 mm and a weight of 4.3 kg. The weight of a large-format wall block can reach 24 kg, depending on.
However, this does not mean that the heavier the material, the stronger or more durable it is. and in different ways. Firing is carried out at certain temperatures. The properties of the material that correspond to its purpose are considered paramount, and only then comes such an auxiliary characteristic as mass.
The weight of solid bricks in the classic design is 3.3-4.3 kg
It is used for buildings made of ceramic stone, in the construction of plinths of wooden houses, for bonding foam concrete/silicate masonry, and quite rarely as the main building material. Before concrete floors and foundations arose, it was indispensable. This is due to its resistance to groundwater, the ability to be used in laying out vaults and large arches, and to be matched to complex façade decor. However, the degree of thermal insulation of this material is quite low, which automatically increases the thickness of the walls, and, consequently, the load on the foundation.
The weight of a solid single red brick averages 3.45 kg (3.3-3.6 kg), a hollow single brick - 2.4 kg, a single facing brick - 1.45 kg.
- Construction slot(hollow) brick weighs approx. 2.5 kg, however, it is also losing its popularity in the construction market. Taking into account the solution 1 cubic meter of masonry weighs almost 1700 kg, which guarantees a significant weight of the structure and a corresponding load on the foundation of the house. In low-rise construction, it is much more profitable to use ceramic stone, which has high thermal efficiency.
- Silicate- the most difficult option. According to GOST 379-95, the weight of silicate bricks should not be more than 4.2 kg, but today many manufacturers in their work are guided by specifications, according to which even a brick weight of 5.0 kg is considered normal. The undeniable advantage of this material is its affordability. Disadvantages include fear of high temperatures and significant water absorption. The weight of a white silicate solid single brick is on average 3.7 kg, single hollow – 3.2 kg, single facing - 3.95 kg.
- Porous blocks- the lightest building material. Their dimensions correspond to the thickness of the wall, however, due to their high thermal conductivity and low weight, they significantly reduce the load on the foundation of the house. The abundance of closed pores and through cracks in ceramic stone explains its significant dimensions and minimal weight. 1 cubic meter of such material weighs no more than 800 kg.
- Veneering ceramics. The undeniable advantages of this option include high frost resistance and durability. The weight of facing bricks is 1.6-4.3 kg. The heaviest is clinker solid stone, which is obtained from highly plastic clays by sintering into a monolith.
Clinker is characterized by high strength and durability, is not afraid of temperature changes, and does not lose its texture and color for a long time. Considering the fact that in most cases the bed of facing stones is narrowed, the pressure on the foundation is insignificant.
Specific gravity of brick
Considering that the standard dimensions of the single version are 250x120x65 mm, its specific weight will vary between 1600-1900 kg/m3. In this case, the volume of 1 piece is 0.25*0.12*0.65=0.00195 m3.
The minimum specific gravity is 1600*0.00195/1=3.12 kg, the maximum is 1900*0.00195/1=3.71 kg.
Using the principle for determining the specific gravity of a material given above, you can calculate the specific gravity of brickwork. When calculating this indicator, you should also take into account the weight of the solution that goes per 1 cubic meter of wall.
How many bricks are there in 1 cubic meter of masonry excluding the seam?
Subject to the use of a single version with dimensions 250x120x65 mm - 516 pcs;
Double stone with dimensions 250x120x140 mm – 242 pcs.
Number of bricks in the masonry if there is a seam, the thickness of which is 10 mm:
For single version 250x120x65 mm – 400 pcs;
For double (250x120x140 mm) – 200 pcs.
One of the common materials for the construction of walls (partitions) is brick.
When carrying out construction work, it is imperative to take into account the specific gravity of the brickwork to calculate the load effects on the foundation.
Loads must always be taken into account. The integrity of the original building and the safety of the premises as a whole largely depend on this.
Masonry made of silicate, red brick
The mass of red brick varies from 3.5 to 3.8 kg During construction, red (aka ceramic) or silicate (white) types are used. The first one is based on clay, the second one is lime and sand. They are available in different sizes and shapes. It turns out that 1 m3 of brickwork will contain an unequal number of units of this building material. Accordingly, the mass will differ.
The production of red brick from different types of clay is carried out by firing it in special kilns. With high strength, it has good thermal insulation properties. The weight of one of its pieces ranges from 3.5-3.8 kg.
Sand-lime brick is heavier than red To reduce it, manufacturers produce a hollow version weighing an average of 2.5 kg per unit. Due to the presence of cavities, a more voluminous hollow one will weigh the same as a full-bodied one.
The heavy silicate version has good thermal insulation properties. It is more durable than red. At the same time, a full-bodied one weighs on average 3.7 kg, and for a hollow one it’s 3.2 kg. The mass characteristics of the more voluminous version are comparable to the full-bodied type.
According to the functions performed, the following are distinguished:
- workers;
- facing.
Calculations
One cubic meter of mortar is enough for a cubic meter of brick It is necessary to calculate the amount of brick needed when performing work by calculating the volume of the final structure. Based on it, purchase working material.
Everything is not limited to the weight of the bricks: the thickness and number of connecting seams and the characteristics of the bonding mortar are additionally taken into account. To fill voids, more mortar is used than for a solid type.
When performing calculations, it is advisable to focus on measuring the mass indicator of a cubic meter of masonry. For more information on brickwork calculations, watch this useful video:
During construction, one cube of mortar can lay out up to 4 cubes of brick. The specific average weight of the masonry ranges from 1500 to 2000 kg/m3.
In order not to independently calculate the weight of the full brickwork of 1 m3, it is advisable to use the table.
Brickwork is one of four types of artificial stone masonry, along with small block, ceramic and mixed. This type of masonry is one of the most popular and is used everywhere. With the help of this masonry, construction work is carried out on the construction of building walls, supports for bridges, remelting, and the like.
The popularity is due to the ease of implementation and versatility of work. This technology first became known at least from the 8th millennium BC. This is confirmed by excavations of the village of Mehrgarh in Pakistan. Even then they understood that this method was one of the best for construction work.
Table of specific gravity of brickwork
Below is a detailed table to simplify the necessary calculations, including such a parameter as the weight of the brickwork.
| Material | Specific gravity (g/cm3) | Weight 1 m3 (kg) |
| Average value of all types of bricks | 1,7 - 1,9 | 1700 - 1900 |
| Single Ceramic Solid Clay Red Brick | 1,7 - 1,8 | 1700 - 1800 |
| One and a half ceramic solid clay red brick | 1,6 - 1,7 | 1600 - 1700 |
| Double Ceramic Solid Clay Red Brick | 1,5 - 1,6 | 1500 - 1600 |
| Single Ceramic Hollow Clay Red Brick | 1,3 - 1,4 | 1300 - 1400 |
| One and a half ceramic hollow clay red brick | 1,27 - 1,3 | 1270 - 1300 |
| Double Ceramic Hollow Clay Red Brick | 1,1 - 1,27 | 1100 - 1270 |
| Single Ceramic Hollow Clay Red Brick Cladding | 1,2 - 1,7 | 1200 - 1700 |
| One and a half ceramic hollow clay red facing brick | 0,9 - 1,05 | 900 - 1050 |
| Single silicate solid white brick | 1,8 | 1800 |
| One and a half silicate solid white brick | 1,7 - 1,8 | 1700 - 1800 |
| Single silicate hollow white brick | 1,7 | 1700 |
| One and a half silicate hollow white brick | 1,5 | 1500 |
| Double silicate hollow white brick | 1,4 | 1400 |
| Single silicate hollow white brick facing | 1,5 - 1,7 | 1500 - 1700 |
| One and a half silicate hollow white brick facing | 1,3 - 1,5 | 1300 - 1500 |
| Single solid fireclay brick | 1,7 - 1,9 | 1700 - 1900 |
Specific Gravity Calculations
In order to calculate the necessary parameters. To begin with, you need to define the concept itself. So, specific gravity is the quantitative ratio of weight to the occupied volume of the desired substance or material. Such calculations are carried out using the following formula: y=p*g, where y is the specific gravity, p is the density, g is the acceleration of gravity, which in normal cases is a constant and equals 9.81 m/s*s. The result is measured in Newtons, which are divided by cubic meter (N/m3). To convert the resulting value to the SI system, you need to multiply it by 0.102. Approximate values of such a parameter as the specific gravity of brickwork are presented in the table above.
Density is the mass of the desired substance or material, measured in kilograms, which fits in a cubic meter. This parameter often depends on many different factors, such as temperature. The average values of such a parameter as the density of brickwork range from 900 to 2000 kg/m3.
There is no way on a construction site without bricks, and the total weight of the structure can only be calculated if the weight of the brick is known—accurate and individual. The publication's experts understand what types of bricks exist and determine the main characteristics and purpose of each of them.
Types of bricks
The main types include:
- ceramic (red, clay);
- adobe;
- hyper-pressed;
- silicate.
Also divided into:
- building;
- facing.
When considering the characteristics of 1 piece, the following values are taken into account:
- dimensions;
- specific gravity;
- volume weight.
The dimensions of a simple brick allow you to calculate the required quantity for the construction of a particular structure. The standard weight is 4.3 kg with dimensions 250x120x65 mm. The weight of building bricks should not exceed 4.5 kg. The weight of an ordinary hollow one is small, on average 2.5 kg.
As a rule, according to their form, they are divided into:
- hollow (slotted);
- full-bodied.
Working bricks are produced:
- single (250x120x65 mm);
- one and a half (250x120x88 mm);
- double (250x120x140 mm);
Also offered:
- modular (280x130x80 mm);
- euro (250x85x65 mm).
To deliver bricks to the construction site, they resort to the use of special devices, for example, a special pallet - these are wooden, metal, or a combination of metal and wooden structural elements of certain sizes. The cheapest ones are wooden. The pallet comes in two sizes:
- 520x1030;
- 770x1030.
To reduce the risk of combat, it must be folded correctly. As a rule, it is folded in two ways:
- herringbone at an angle of 45°;
- in dressing using dressing tapes.
| Model | Description |
|---|---|
 |
275 |
 Single-sided (250x90x65 mm) |
307 |
 Dihedral (220x90x65 mm) |
375 |
 |
480 |
The use of broken bricks is different, usually they are often used:
- when repairing road surfaces;
- when constructing garden paths;
- for draining small areas of land in drainage pits;
- to obtain crushed stone;
- for foundation construction.
Foam diatomite brick (DFM) is endowed with high heat-saving properties. It contains:
- diatomite;
- lime and casein glue as stabilizing additives;
- sawdust or lignin from wood;
- foaming agent – pine rosin.
The weight of a masonry cube is influenced by the reinforcement of walls or individual components of supporting structures. Naturally, the question arises, how to calculate the weight of a brick m3 of brickwork? Note that this indicator includes both the mass of the stone itself and the binding mortar or glue.
IMPORTANT! When constructing a foundation slab, it is very important to provide for the pressure of the future building. The mass of a cubic meter of brickwork is 1976 kg.
Let us consider in more detail the technical characteristics of each type offered on the construction market.
Red brick weight: main characteristics
| Qty/size | View | Weight |
|---|---|---|
| 1 piece/250x120x65 mm | Standard | 3.4-3.8 kg |
| 1 piece/250x120x65 mm | Full-bodied (regular) single | 3.3-3.6 kg |
| 1 piece/250x120x65 mm | Full-bodied (regular) one-and-a-half | 4.0-4.3 kg |
| 1 piece/250x120x65 mm | Full-bodied (regular) double | 6.6-7.2 kg |
| 1 piece/250x120x65 mm | Hollow (regular) single | 2.3-2.5 kg |
| 1 piece/250x120x65 mm | Hollow (regular) one and a half | 3.0-3.3 kg |
| 1 piece/250x120x65 mm | Hollow (regular) double | 4.6-5.0 kg |
| 1 piece/250x120x65 mm | Hollow (facial) single | 1.32-1.6 kg |
| 1 piece/250x120x65 mm | Hollow (facial) one and a half | 2.7-3.2 kg |
Weight of solid brick: main characteristics and brands
| Qty/size | View | Weight |
|---|---|---|
| 1 piece/250x120x65 mm | Standard | 3.6-3.8 kg |
| 1 piece/250x120x65 mm | Silicate (single) | 3.6 kg |
| 1 piece/250x120x65 mm | Silicate (one and a half) | 4.8 kg |
| Silicate (specific gravity) | from 600 to 1800 kg/m3 | |
| Weight of silicate cube (single) | 1900 kg | |
| Weight of a silicate cube (one and a half) | 1592-1895 kg | |
| 1 piece/250x120x65 mm | Ceramic (single) | 3.5 kg |
| 1 piece/250x120x65 mm | Ceramic (one and a half) | 4.0-4.3 kg |
| 1 piece/250x120x65 mm | Ceramic (double) | 6.6-7.2 kg |
| Weight of ceramic cube (single) | 1693-1847 kg | |
| Weight of a ceramic cube (one and a half) | 1515-1630 kg | |
| Weight of ceramic cube (double) | 1597-1742 kg |
| Model | Description |
|---|---|
 |
Used in the construction of higher-rise structures |
 |
|
 |
It is used in the construction of low-rise construction projects (2-3 floors) |
Weight of sand-lime brick: characteristics, types + specific gravity
Advantages of sand-lime brick
- low price;
- environmental friendliness;
- compatibility with any solution;
- aesthetics;
- high strength;
- good sound insulation;
- high frost resistance.
Disadvantages of sand-lime brick
- high thermal conductivity;
- cannot withstand high temperatures;
- high water absorption.
Weight of facing bricks: types + calculation of pallet weight
| Qty/size | View | Weight |
|---|---|---|
| 1 piece/250x120x65 mm | Ceramic hollow (single) | 2.3-2.7 kg |
| 1 piece/250x120x65 mm | Ceramic solid (single) | 3.6-3.7 kg |
| 1 piece/250x85x65 mm | Ceramic hollow (euro) | 2.1-2.2 kg |
| 1 pc/250x120x88 mm | Ceramic hollow (thickened) | 3.2-3.7 kg |
| 1 piece/250x85x65 mm | Ceramic hollow (thickened euro) | 3.0-3.1 kg |
| 1 piece/250x120x65 mm | Clinker solid | 4.2 kg |
| 1 piece/250x90x65 mm | Clinker hollow | 2.2 kg |
| 1 piece/250x60x65 mm | Clinker hollow | 1.7 kg |
| 1 piece/528x108x37 mm | Clinker long | 3.75 kg |
| 1 piece/250x120x65 mm | 4.2 kg | |
| 1 piece/250x60x65 mm | Hyper-pressed solid smooth (non-firing) | 2.0 kg |
| 1 piece/250x90x65 mm | Hyper-pressed solid smooth (non-firing) | 4.0 kg |
| 1 pc/250x120x88 mm | Hyper-pressed solid smooth thickened (non-firing) | 6.0 kg |
| 1 pc/250x120x88 mm | Silicate hollow one-and-a-half | 3.9 kg |
| 1 pc/250x95x88 mm | Silicate decorative relief | 4.0 kg |
| 1 pc/250x60x88 mm | Silicate decorative crushed | 2.5 kg |
| Pallet with hollow red brick (single or one and a half) | up to 1.4 t | |
| Pallet with ceramic bricks | up to 1.92 t | |
| Pallet with silicate bricks | from 0.5 – 1.5 t |
Weight of ceramic bricks: characteristics + volumetric weight
| Qty/size | View | Weight |
|---|---|---|
| 1 piece/250x120x65 mm | Hollow | 2.5 kg |
| 1 piece/250x120x65 mm | Full-bodied | 3.4-3.8 kg |
| 1 pc/250x120x88 mm | One and a half hollow | 3.0-3.2 kg |
| 1 pc/250x120x88 mm | One and a half full-bodied | 4.0-4.2 kg |
| 1 piece/250x120x65 mm | Clinker single | from 1.6 to 3.3 kg |
| 1 piece/250x85x65 mm | Clinker single (euro) | from 1.6 to 3.3 kg |
| 1 piece/250x60x65 mm | Clinker single (half) | from 1.6 to 3.3 kg |
| Volumetric weight of solid | not less than 2000 kg/m3 | |
| Volumetric weight of hollow | 1100–1400 kg/m3 |
Advantages of ceramic bricks
- wide palette of colors;
- large selection of shapes and sizes;
- simple installation;
- long service life;
- environmental friendliness;
- good thermal conductivity;
- good sound insulation;
- low price.
Cons of ceramic bricks
- inaccurate geometry;
- the emergence of "dutik";
- low strength;
- damage during transportation;
- the appearance of efflorescence;
- high water absorption.
Hollow brick weight: characteristics + volumetric weight
Fireclay brick weight
If ordinary brick is used for the construction of external and internal walls, then other types are also used for the construction of stoves.
Let's stick to fireclay. It is a type of fire-resistant stone, widely used in industrial and private construction. It is obtained by heat treatment of a special mixture containing fireclay and fireclay powder.
Main characteristics:
- fire resistance;
- increased thermal conductivity;
- resistance to temperature changes;
- ease;
- increased strength;
- resistance to alkali and acid;
- aesthetic appeal.
The mass of a refractory completely depends on the raw materials used in its production, as well as on the type and shape.
When building a fireplace or stove, in addition to fireclay, refractory red brick is often used, the dimensions of which are 250x120x65 mm. It is designed for t1000°C. Fireclay bricks of the same size are the flake (ШБ6).
Strength grades: , M100 , M125 , M150 ,
