Selecting a grid for a specific width
Here they rely on the width of the wall that requires finishing.
Depending on the specific indicators in a particular case, the results will be as follows:
- When laying two and a half bricks and a width of 630 millimeters, a meter roll of mesh 50 by 50 by 2 is sufficient. Then it will be easier to cut the sheets to the required sizes.
- Masonry in two bricks, with a thickness of 500 mm. The mesh will also be 500 mm thick.
- One and a half bricks with a width of 380 mm. The mesh is purchased with a width of 500 millimeters. The partition is made from the pieces remaining after cutting.
- Single-brick masonry, with an indicator of 250 millimeters. The thickness of the mesh should be within the same limits.
- The masonry is half a brick with a width of 120 mm - then the mesh should have a thickness of 250 millimeters. It is simply cut in half.
Recommended reading:
How is reinforced brickwork made?
- Principles of work
- Brick wall: transverse type of reinforcement
- Meshes for transverse reinforcement
- Transverse type bar reinforcement
- Longitudinal reinforcement
- Summarizing
When constructing any structures, strength characteristics are the most important. Sometimes huge loads act on load-bearing masonry walls and columns, including brick ones. Requirements for the safe operation of such structures lead to the need to strengthen these structural elements. Reinforced brickwork is one of the common ways to increase the strength of buildings.
Types of bricklaying.
The technology of structural reinforcement has been developed over centuries. In particular, the question of how to reinforce brickwork was solved by our ancestors. The use of this technique is quite justified for critical structures that are subject to increased strength requirements. In general, reinforced masonry walls, although it complicates the design, fully fulfill its purpose.
Purpose of masonry reinforcement
When constructing walls and partitions, the reinforcement method is used to strengthen the brickwork. The technology uses pre-prepared steel mesh or reinforcement rods, which are placed in the mortar of masonry joints.
Reinforcement of masonry is necessary when constructing walls in the following cases:
- wall structures are subject to significant compressive loads;
- the building is being erected on subsiding or heaving soils;
- construction is carried out in areas of probable seismic activity;
- work is carried out at negative air temperatures.
The saturation with reinforcement should not exceed 1% of the total volume of the masonry.
Reinforcement of brickwork: step-by-step instructions
Masonry mortar
Rules for strengthening the facade
In order to build the most reliable and durable walls, reinforcement of solid brickwork should be done from its very bottom. If the base is supposed to be assembled from brick, this procedure should be performed for it as well. Having laid the first row of bricks on the foundation strip, it is laid on top with ready-made reinforcement. In this way the first five rows are strengthened. Next, the wall is raised six rows in the usual manner and the reinforcement is laid again. Then the procedure is repeated.
Important: When assembling a brick pediment with a height of less than 8 m, the insertion is carried out - as in the construction of walls - every 6 rows. In the gable above every three rows are laid
Strengthening openings and problem areas
Very often cracks appear in the area of openings. The fact is that quite serious tension arises in the masonry in this place. It can be compensated for by laying reinforcement. For a doorway, this operation is performed in two rows directly above it. Windows are also reinforced in two rows, but at the top and bottom.
Problem areas can also be areas where parts of a house of different heights adjoin. For example, where the project provides for the addition of a one-story extension to the main structure of two floors. Splits may appear at the joint due to differences in vertical pressure. In this case, the reinforcement of the brickwork is carried out in the last three rows of the low part of the masonry with its installation in the wall of a higher building so that the horizontal center of the mesh is located at the junction.
Masonry without bandaging seams
Sometimes the enclosing structures of buildings are laid out without bandaging the seams. Such houses look quite impressive and stylish. However, the masonry must be reinforced without fail. The grid is laid in every third row.
Advice: All of the above recommendations apply to Morfor fittings. If you are reinforcing with material from another manufacturer, you should first read the instructions for it. Installation rules for other fittings may be different. For example, a less reliable material can be used every 4 rows.
Rules for laying reinforcement
When reinforcing brickwork, it is worth observing certain standards. In this case, walls built with your own hands will be as reliable as possible. So:
- The mesh is completely embedded in the solution.
- If you are using ferrous metal fittings, they should be painted before installation.
- The seams must be at least 4mm thicker than the rods.
- When constructing a building, it is allowed to use only reinforcement of the same diameter and other parameters.
- The mesh should have such a width that the ends of its elements protrude on one of the surfaces of the wall by a couple of millimeters.
- If the mesh is made independently, its individual elements are connected with knitting wire. Welding is not recommended.
Sometimes owners of suburban areas have a question about how to make vertical reinforcement of brickwork. This procedure is usually performed only in seismically hazardous regions. The locations of the rods in this case are determined specifically for this particular project.
What is brickwork reinforcement?
Strengthening brickwork with reinforcement is one of the simplest and most well-known options for increasing the strength of a structure. The technology itself has been developed for a considerable amount of time; it began to be used a long time ago.
It would be advisable to use the material if high strength requirements are imposed on the building being constructed. Partially reinforced masonry will complicate the structure and improve the strength of the walls several times. Elements that enhance the strength of the wall are located in the plane or in the transverse direction. It is necessary to determine which arrangement is used, based on the upcoming impact on the wall being created during its use.
Thanks to the reinforcement present in the wall, the load is correctly redistributed. Local overload points will not occur. Reinforcement of brickwork can solve problems such as: 1. use of low-quality or fragile bricks; 2. insufficient strength of building materials; 3. poor quality binder. Due to the use of additional materials, the load-bearing capacity of the brick increases several times.
How is transverse reinforcement carried out?
To carry out such work, it is necessary to lay an element reinforcing the building on a brick surface. In compression and bending, it obtains the highest strength indicators, and how much mesh is needed depends on the height of the building.
It is used most often when creating inclined masonry, which includes arches. Reinforcing mesh or special reinforcement is used in a separate specific case. Its choice depends on the construction requirements. It is possible to use both factory reinforcement and that which was independently created from wire to strengthen the rows. If a column or partition is created, then transverse reinforcement is used. The element, based on the design, will be laid out on a pre-calculated layer of brick. It is covered with a solution on top, which is applied additionally. Its thickness is at least 2 mm.
How many types of brickwork reinforcement are there?
It can be both longitudinal and transverse. The first option can be divided into two types of execution - horizontal and vertical for different rows of bricks. The materials used for the work can be steel rods or mesh. In the first case, it is possible to prevent the destruction of the brick, its deformation during bending or stretching. The element can be created from a mesh and a rod, which are fixed together by welding.
Reinforcement methods
In the technology of constructing load-bearing walls and internal partitions, reinforcement is laid in various planes in order to strengthen critical areas of the masonry of walls, columns, window and door openings, and arched ceilings.
Horizontal and vertical reinforcement of walls is used depending on the nature of the existing loads. Strong elements are laid into the rather fragile hardened mass of cement mortar along the entire length of the masonry. They evenly distribute local loads over the entire structure, preventing the appearance of cracks in places of stress.
Taking into account the possible directions of action of critical forces, reinforcement of brick walls is carried out in 2 planes:
- transverse (deep into the seam);
- longitudinal (along the surface or inside the masonry).
Additionally, longitudinal reinforcement is divided according to the method of orientation of the element relative to the surface of the walls into vertical and horizontal orientation.
In certain areas of the masonry, it is important to provide the correct reinforcement to maintain the integrity of the structure. Which method to choose in a particular case and how to place reinforcing belts in the walls, in how many rows to lay them, depends on taking into account in the project not only static weight loads, but also wind, snow, and seismic components
Which method to choose in a particular case and how to place reinforcing belts in the walls, in how many rows to lay them, depends on taking into account in the project not only static weight loads, but also wind, snow, and seismic components.
Compliance with the rules for the construction of walls and partitions refers to the creation of conditions for the safe operation of buildings and structures, ensuring the service life of individual housing construction is not lower than that calculated in the project.
The load-bearing capacity of a main wall or thinner partition can be increased by reinforcing the brickwork in the horizontal plane with metal mesh or tied wire. This method is also used to ensure the connection of the facing masonry with the backfill wall.
Building codes formulate the requirements for reinforcing brickwork with a mesh of horizontal joints:
Basalt reinforcing mesh allows you to reduce the amount of mortar due to the thickness of the seam. In addition, it does not require additional anti-corrosion coating and careful protection from the environment.
Easily cut to size using regular scissors. When choosing such a material, it should be taken into account that the ratio of the strength characteristics of steel and composite is 4:1, therefore, for the same loads, metal wire needs a smaller cross-section than basalt wire.
Industrially, the following options are made from steel rod according to standard cutting formats:
The best representative in its class for individual construction (where a large Ø rod is not required to provide increased strength) is expanded mesh for brickwork. It is produced in rolls, manually cut to the required size, has an anti-corrosion coating, and reduces the thickness of the seam compared to wire.
Types of reinforcement
There are several types of reinforcement for brick walls: transverse, vertical and longitudinal. The first type involves the use of simple metal rods or mesh. The bars help prevent the stone from splitting during loads that try to bend or stretch it.
The rods can be combined into a single lattice using a welding machine or wire. The mesh width should be from 30 to 120 mm. In adjacent seams, the mesh cannot be replaced with separate rods, which are laid at an angle of 90 degrees to each other.
If the reinforcing grid is made of very large bars, this will cause a decrease in the strength of the masonry due to the greater thickness of the inter-row seams. Reinforcement of walls and any other structures is carried out using a mesh assembled for welding. It can be in the form of squares, rectangles or wavy shapes.
To prevent the metal from being destroyed by rust, it must be completely immersed in cement mortar to a depth of at least 2 mm on all sides. The seam will have a thickness of at least 14 mm, of which 5 mm will be reinforcement.
Walls and partitions must be reinforced in every 5th row of brickwork. If one-and-a-half or double bricks are used, then the procedure is repeated in every 4th row. Wave-like bends are given to the reinforcement directly at the construction site. To do this, reinforcement with a thickness of 5 to 15 mm is bent every 5 or 10 cm. It is unacceptable to use reinforcement with a large diameter, because this will entail an increase in the thickness of the inter-row seam.
Walls are reinforced with wavy wire in every 5th row. It should be laid in pairs perpendicular to the previous 2 rows. They try not to allow the distance between the bars in the mesh to exceed 120 mm. This is one of the most accessible methods: it is easy to perform and requires minimal financial costs. It is often used in individual construction of cottages and houses. Lintels and similar structures are laid out of brick using transverse even rods.
General recommendations for reinforcement of brick structures
Strengthening brick pillars
There are two main types of brick pillars:
- Performing the function of load-bearing columns. Supports are used to evenly distribute the load and support the floors placed on them. Such structural elements experience only vertical pressure.
- Semi-decorative fence posts that can both connect sections of fencing and support gates and gates. Here the main type of load is horizontal.
Due to their small size, masonry reinforcement for pillars must be done using mesh or rods. The construction scheme for such pillars is as follows: the foundation, containing a reinforcement frame or a built-in metal pillar, is lined with brick. In this case, a reinforcing mesh is used in the horizontal section of the masonry. The construction of hollow columns with minimal strength is dangerous and impractical.
Facade reinforcement
It is possible to achieve the maximum effect from strengthening walls, making them more durable and reliable, only by making reinforcement from the very foundation. If the base of the building is brick, then its strengthening is also necessary. Reinforcement of the brick base begins after the first row is laid on the foundation. Reinforcing elements are laid out on top of it, the procedure is repeated in each of the next 5 rows. Subsequently, the wall is raised by another 6 layers of masonry, after which reinforcing rods are laid again. Next, the process is repeated cyclically.
Transverse
This type of brick wall reinforcement is characterized by the use of a mesh made of different materials and steel rods that protect the brick from deforming tensile and bending stresses. The rods are attached to the mesh using tying wire or welding. The rules establish the connecting pitch from 30 to 120 mm. Replacing the mesh with single reinforcement in a perpendicular plane does not comply with construction standards. For transverse reinforcement, a mesh with three main types of cells is used. It happens:
- rectangular;
- zigzag;
- square.
The masonry is reinforced with a rectangular mesh with a diameter not exceeding 5 mm, and the cell size cannot be wider than 100 mm. Such a grid is laid through 5 rows of bricks. When performing work to strengthen the masonry, the reinforcing elements are positioned so that the edges of the reinforcement and mesh protrude somewhat beyond the front layer of brick. They will be deleted in the future.
Zigzag mesh for brickwork is made of wire with a diameter of 5 to 8 millimeters, the cell size ranges from 50 to 120 millimeters. It is laid in a horizontal plane every 2 layers of bricks and fastened with reinforcement located in adjacent rows at right angles.
Vertical
For this type of reinforcement, straight and zigzag mesh is used. Rods are laid between every 5 rows of bricks. The use of straight rods is recommended in row masonry of regular shape. The width of the reinforcing rods is arranged in increments of about 100 mm. The rods go deep into the mortar-filled joints to a depth of 20 mm.
Longitudinal
This type of wall strengthening, depending on the placement of reinforcing elements, is divided into internal and external. It is customary to reinforce brickwork in length with rods with a diameter of 10 millimeters or more. With internal strengthening, the reinforcement is placed along the walls, being recessed into the base of the masonry. For external installations, pillars attached to the wall are used to secure reinforcing elements. For small buildings, such as a private house, the thickness of the rods does not exceed 15 mm, while for large structures rods with a diameter of 30 mm and thicker are used. In the facing masonry, the spacing of the rods with a thickness of 120 mm must be observed.
Reinforcement of brickwork, main methods
Laying reinforcing steel material can be done in three ways, which are used on almost any construction site and can be combined with each other.
Lateral reinforcement
Strengthening with transverse reinforcement is used when installing partitions, columns, and walls. This method is practiced at most construction sites. Transverse reinforcement works effectively in compression of the structure and in its bending.
Transverse reinforcement is carried out by laying transverse rods that are connected to each other with wire. There are also rods for a cross section in the form of a snake. The wire bent in this way does not require a large amount of knitting, which significantly speeds up the work process.
Longitudinal reinforcement method
Longitudinal reinforcement is used to strengthen partitions and walls. This method is used when strengthening partitions and is one of the main ones. The fittings are selected for it. This reinforcement is effective for lateral loads, as well as for bending. The distance between the laying rods depends on their location on the wall.
Reinforcement bars can be installed inside and outside the wall. The distance between them must be at least 15 diameters of the rods.
The positive aspect of this reinforcement is that it can be used after the construction of part of the wall. It is also used when reinforcing masonry.
Note! Stone masonry can be used to build a foundation or ground floor.
Vertical method
The vertical method of strengthening is suitable for walls and pillars. For such reinforcement, reinforcement and wire of different diameters are used, as well as steel mesh. Reinforcement and wire are selected if the post will bear a significant load. To do this, when laying the pillars, reinforcement bars are inserted inside at the seams. During the construction of pillars, bricks are laid in such a way that the rods are placed along vertical seams, which makes the structure monolithic and durable. The diameter of the reinforcement depends on the load.
Vertical reinforcement can be done with a profile pipe. A pipe of the required internal size is installed in place of the pillar, and then it is lined with bricks and wire rods are laid.
Attention! Reinforcement of pillars with steel mesh is carried out by laying it in horizontal rows. At least every three rows of bricks. This method is used for laying pillars with low structural load.
Vertical strengthening, like the longitudinal method, can be internal or external, which makes it a more effective way to increase strength. Disadvantage of the external method: when erecting a column at the final stage, it is necessary to change its dimensions, because you have to hide the reinforcing layer with additional finishing, which is not always possible.
additional characteristics
The dimensions of the masonry nets must be selected before purchasing the product. The latter is made of highly bendable high-carbon steel. During the production process, the rods are coated with PVC or zinc for more impressive strength. A number of experts prefer galvanized mesh. However, recently, fiberglass coating options have become increasingly common, which give the product better quality characteristics. In the latter case, the mesh is lighter, its strength is increased, and the top layer protects against corrosion. If you want the reinforcement to last longer, you should use a product that is covered with fiberglass.
Types and materials for manufacturing reinforcing mesh
All construction materials used to strengthen masonry are divided into two large categories:
- light - with a cross-sectional diameter of less than 10 mm;
- heavy - the thickness of which exceeds 10 mm.
At the same time, the technology for producing different types of reinforcing mesh varies: masonry, spot-welded, cold-rolled mesh reinforcement and others. Most often, masonry mesh less than 5 mm in diameter is used for transverse reinforcement. Also, the meshes vary in the material from which they are made; they are used:
- steel;
- basalt;
- composite: glass and basalt plastic.
For example, basalt mesh is used to reinforce facing brickwork and wall masonry. Simultaneously with the strengthening of each of the masonry, they are fastened together. Composite meshes are approximately equal to basalt meshes in operational and consumer terms and are superior to metal ones both in technical characteristics and are more profitable from a financial point of view.
Transverse reinforcement of walls
Transverse type reinforcement is performed by laying metal rods on a brick surface to increase compressive and extension strength. This type of reinforcement
used in the manufacture of arched objects. The fastening parts can be iron reinforcement or metal mesh. The mesh is used both factory-made and hand-made.
The transverse type of reinforcement is used in the construction of brick walls, columns or partitions. Strengthening the masonry with iron rods is carried out through a certain number of rows of bricks. How many rows exactly this work should be done depends on the size of the building, building material and number of floors. In this case, the rods must be covered with a layer of mortar, the thickness of which is at least 2 mm.
To protect the metal from corrosion and provide the necessary bond, the total layer of the mortar should be about 1.5 cm. One of the elements is used to reinforce the masonry, but combining rods with mesh is not recommended.
Types of execution
When constructing brick buildings, the following types of reinforcement are used to strengthen walls and partitions:
- Transverse. The brickwork is reinforced with mesh placed in horizontal joints. The following types of meshes are used:
- factory-made galvanized metal masonry. They are produced in square, rectangular or zigzag shapes from hot-rolled smooth reinforcing steel A-I and BP-I with diameters of 3...8 mm with cells from 3 to 12 cm;
reinforcement bars connected with tying wire with a diameter of 5 to 8 mm. When using black rods, careful anti-corrosion painting is required;
- All-metal expanded metal mesh (CPVA) is a modern reinforcing product manufactured in a factory using expanded metal technology and having a specific gravity that is 2.5 times less than traditional welded mesh. The undoubted advantage is high strength, reliability and ease of installation;
- polyethylene and PVC mesh;
- composite and basalt. Products with low weight are not subject to corrosion and rotting, do not conduct electric current, and are characterized by high heat resistance and low thermal conductivity. The use of such products makes it possible to reduce the thickness of the seams due to the possibility of reducing the cross-section of the elements. This saves money.
- Longitudinal. Often used to reinforce brick partitions and main load-bearing walls to increase their flexural strength and resist lateral forces. A-I and A-II reinforcement with diameters up to 12 mm is used. It can be internal, for which purpose reinforcing bars (less often mesh) welded together with transverse reinforcement are placed in grooves made in the longitudinal seams in the mortar. Or externally, under a layer of cement mortar. The spacing of clamps for external reinforcement is taken to be ≤ 15 diameters of the reinforcement used, and for internal reinforcement 25 diameters. The strength of the walls directly depends on compliance with these conditions. Often, in non-load-bearing partitions made of half a brick, basalt mesh is laid in every 5th row. In the same way, reinforcement of facing brickwork can be carried out for connection with load-bearing walls.
To strengthen thin partitions, steel corners connected to each other by metal bridges are also used to insert steel corners into the seams on both sides. Corners can be laid only on one side. Vertical rods or mesh are attached to the corners, followed by covering with plastering with cement mortar.
- Vertical reinforcement of brickwork. Often, brick columns are reinforced in this way, in which it is impossible to place reinforcement in the internal cavity or it is impossible to increase its size to perform external reinforcement. In this case, steel corners of the design cross-section are installed in the corners of the column or pillar, united by welding metal transverse bridges. This operation not only strengthens the masonry, but also partially absorbs the loads acting on the structure. For vertical reinforcement of walls, reinforcing bars are placed inside the voids in the brick and then filled with cement mortar. To do this, there must be voids in the masonry running through several rows.
The diameters of rods of classes A-I, A-II, VI are usually taken from 10 to 16 mm, but in high-rise buildings it can increase to 30 mm or more. Vertical laying of reinforcement is especially necessary in areas with high seismic activity.
Nets are not laid in every row. How many rows the brickwork is reinforced is determined by the calculation set out in the building codes. In this case, the magnitude of the loads acting on the wall, their displacement from the central axes and the height of each row are taken into account. Most often, grids are laid at intervals of 2 to 5 rows, and when using thicker bricks, no more than 4. Zigzag ones are laid in two adjacent rows in pairs, so that the arrangement of the rods in them is mutually perpendicular.
The effect of using meshes is reduced when they are located at a distance of ≥ 45 cm. Structurally, the products are located at intervals of ≤ 1 m. Installation is carried out with an overlap of ≥ 15 cm. The layer of mortar at the bottom and top should be ≥ 2 mm. The ends of the mesh should protrude from the inner surface by at least 2 - 3 mm. This makes their location accessible for visual verification of correct installation and serves to strengthen the connection with the internal lining. If necessary, the ends can be easily cut off with metal scissors.
Reinforcement of masonry with nets is carried out in combination with a solution ≥ M 50.
Thickness of brick partitions - step-by-step instructions, calculation, reinforcement
When building a brick partition, it is important to choose the correct thickness, take into account its effect on the space, and thermal insulation properties.
If you use too wide masonry in a small room, you can take up a lot of space. And insufficient thickness of the partition in a private house can cause poor insulation. It is easy to develop the correct plan for laying a brick partition if you prepare for construction in advance. To do this, you need to learn about all existing types of masonry and strengthening partitions.
What should be the thickness of brick walls and partitions?
Brick house Brick. choice Metal will increase resistance Features of brickwork in winter conditions Types of lintels Decorative masonry: edges, ledges, pilasters, grooves and niches Arrangement of openings, grooves, holes Brickwork Recommendations for a bricklayer Methods of bricklaying Laying walls, pillars, channels The width of the wall masonry, usually called the thickness of the wall, is made a multiple of 1/2 brick or stone: 1 brick - 25 cm, 1.5-38 cm, 2-51 cm, 2.5 bricks - 64 cm, etc.
Features of construction
In order to somehow smooth out the main drawback, partitions are usually placed in half a brick (12 cm) or on an edge (the resulting thickness is 6.5 cm). Hollow bricks are also sometimes used, but then the quality of sound insulation decreases.
Standard brickwork thicknesses
Whatever type of brick is used to construct the structure, determining the thickness of the wall is quite simple. According to established standards, this parameter must be a multiple of half its length, i.e. 12 cm.
Interior partitions: brick structures
When constructing housing, partitions are used to delimit the space of houses and apartments. There are a great variety of them, however, the most durable are brick partitions. These structures are called capital and are distinguished by high soundproofing and fireproof qualities.
Information on the purpose of the calculator
The online brick calculator is designed to calculate the amount of building and facing bricks for a house and basement, as well as related parameters and materials, such as the amount of masonry mortar, masonry mesh and flexible connections. Also, the calculations can take into account the dimensions of gables, window and door openings of the required number and size.
What determines the thickness of a brick wall?
But what does the thickness of the brick wall have to do with it? - you ask. Despite the fact that in construction, a lot depends on the strength of the material. Brick, like other building materials, has its own GOST, which takes into account its strength. Also, the weight of the masonry depends on its stability.
The narrower and higher the bearing surface is, the thicker it must be, especially for the base.
About additional characteristics
The sizes can be thought through and selected before the purchase is made. The main production material is high-carbon steel, which bends well. To increase strength, during the production process the rods are coated with PVC or zinc. Then any masonry mesh, the cell sizes of which are selected individually, will last longer.
Many experts prefer to use the so-called galvanized mesh. But recently, fiberglass products have gained recognition in the market. In this case, performance really improves. Then the grid has the following advantages:
- Less weight.
- Increased strength.
- Top layer protected from corrosion.
Metal-plastic products guarantee maximum service life.
Practical recommendations
The current SNiPs regulate the requirements for the performance of such work, which must be strictly observed:
the mesh is completely embedded in the mortar mixture; all metal elements are pre-painted to provide additional protection from corrosive formations; the thickness of the seam covering the reinforcing bars must be guaranteed to be exceeded; during construction work, the building is reinforced with one of the existing reinforcement options; choose a grid with the correct cell configuration; the edges of the mesh fabric should protrude from the masonry; to connect elements, use binding wire; the use of a welding unit is prohibited; reinforcement begins from the base of the structure, for which a frame made of reinforcement is laid on the first row of bricks laid on the foundation surface. After five rows the procedure is repeated; areas and openings that cause concern about the quality of operation are reinforced without fail
For example, a doorway is reinforced from above in two layers, and for a window block such a precaution is also provided from below; if the center of the structure is shifted, it is recommended to strengthen the upper contour of the lower edge of the object.
Often cracks appear around openings, because this is where the masonry experiences serious stresses, which are compensated by the laid reinforcement.
Problems are created by sections of walls of different heights adjacent to each other. The difference in vertical pressure contributes to the formation of splits at the joints. In such cases, it is recommended to carry out reinforcement on the last three masonry rows, placing reinforcement elements on higher walls in such a way that the central part of the mesh is laid horizontally at the joint.
Mandatory requirements
Regulatory documents for construction regulate the rules for performing work and requirements that must be observed. Let's look at them:
- completely embed the mesh into the cement mortar;
- paint metal elements before performing work, protect them from corrosion;
- ensure that the thickness of the seam covering the rods is guaranteed to be exceeded;
- use the same type of reinforcement when constructing a building;
- pay attention to the configuration of the cells;
- ensure that the mesh fabric protrudes beyond the edges of the walls;
- use steel binding wire, do not use welding if the reinforcing products are made independently.
Some installation recommendations
The method of using the material is chosen individually by the master. According to the general set of rules, it would be better to use a grid at least every 5 rows. Three rows in the case of low-rise buildings.
Laying usually occurs as follows:
- Flooring on the previous rows, forming an adhesion to the concrete.
- The previous and subsequent rows are laid using the same technologies.
- For the following rows, uniformity of the area is one of the important requirements. The concrete mixture covers the base completely.
- 20 centimeters is the minimum thickness for overlapping mesh pieces.
- 12 millimeters is the minimum thickness of mortar joints, where reinforcing mesh is added.
The need for a specific type of mesh for bricks at the present time is decided in advance. For example, in the case of a metal reinforcing belt, the thickness should be at least 2 millimeters.
The combination of the following components promotes the addition of individual masonry layers to each other:
- Concrete solution.
- Reinforcing mesh.
- Friction exerting a pressing effect.
Do not forget about the documents regulating such construction. SNiP recommends using the next belt after a certain number of rows. The cell size and other parameters are also strictly controlled.
It would be good to create the most detailed project; its absence in most cases only complicates the implementation. In most cases, the properties of meshes have long been tested in practice.
It is allowed to use different types of reinforcement on the same object. Thanks to the combination of their properties, the result is positive. Alternating the grid can be quickly resolved with proper calculations and drawings.
For what purpose is it carried out?
During the shrinkage process, the walls do not become covered with cracks, and the load effects are removed from the masonry.
This work is performed in the following cases:
- heavy loads are created on the enclosing structures of multi-storey buildings;
- there is a possibility of cracks forming on objects built on weak soil compositions;
- construction is being carried out in an earthquake-prone region, and increasing strength is necessary to counteract tremors;
- when building arches from bricks or columns, carrying out complex masonry;
- if low-quality building materials are used.