Mesh for plastering walls: types, selection rules and instructions for use

When starting a renovation, the owners want to get a beautiful, stylish, comfortable apartment or house. Achieving the goal is impossible without durable finishing: plaster and putty. A strong plaster layer can be obtained using a technological operation such as reinforcement. Beginners in the construction business and some experienced home craftsmen do not always understand the nuances of reinforcement.

The editors of the StroyGuru website decided to talk in detail about the types of reinforcement, the materials for its implementation, and the features of the technical process. Particular attention will be paid to the reinforcing mesh for plastering walls.

What is this - reinforcement

Reinforcement is a method of increasing the strength of a product by introducing high-strength materials into the composition (structure). A striking example of reinforcement is reinforced concrete. Thus, a concrete slab 4-5 cm thick is easy to destroy - it has weak bending strength. Reinforced concrete is so thick, it takes a lot of effort. And that’s not a fact.

For plaster, 2 reinforcement methods are used:

using a mesh for plaster;
dispersive - short fiber fiber made of metal, propylene, glass or basalt is mixed with the CPR.

Reinforcing the plaster layer with fiber successfully copes with the task when there is good adhesion of the mortar to the wall. If there is no adhesion at all or it is weak, a plaster mesh helps. What it is and how it works can be found here.

Why is it necessary?

Plaster reinforcement allows you to:

ensure reliable adhesion of the mortar to the wall material - when working with brick and wooden walls, it will not be possible to obtain a monolithic slab. It will definitely peel off. The same problem applies to a thick layer of mortar - without a reinforced mesh for plaster it will quickly “swell”;
increase the strength of the leveling layer:

when the building shrinks;
vibrations;
mechanical influence.

achieve higher load-bearing capacity;
reduce the influence of temperature and humidity, with their sudden changes, on the strength characteristics of the finish;
strengthen areas with a high risk of collapse: openings, slopes, joints - reinforcement prevents destructive processes;
increase the durability of the plaster layer;
Preserve the surface of the applied mortar from cracking as it gains strength;
protect the insulation from mechanical stress when facing the facade with decorative plaster using the “wet” method;
reduce shrinkage of the solution.

When to use it

Experts recommend continuous reinforcement of plaster with mesh in the following situations:

the solution is applied to porous building materials: aerated blocks or foam concrete;
mixed masonry of two or more wall materials was used;
External walls are insulated using the “wet facade” method - polystyrene foam (Penoplex) or basalt wool is plastered with decorative compounds;
plastering is carried out before painting;
plaster layer 3 cm thick or more;
decorative plaster is applied with a grain size of less than 2 mm.

According to regulatory documents (SNiP and SP), when carrying out interior finishing work, it is allowed to refuse reinforcement when using gypsum compounds. For cement, cement-lime and cement-gypsum mixtures, a mesh under the plaster is required in places where cracks are most likely to appear. This:

semicircular surfaces;
elastic bases;
ceiling rustics;
floor slab joints;
connecting seams of drywall - often under putty or grout;
connecting seams of dissimilar wall materials. An example would be a wall, one part of which is lined with bricks, the other with gas blocks.

It is also recommended to lay “kerchiefs” - strips of fiberglass reinforcing mesh - at the corners of door slopes.

What is the function of the grid?

When plastering walls without using a reinforcing layer, there is a high risk that the applied solution will simply fall off the base. And when finishing brick and wooden surfaces, the plaster may begin to peel off and crumble even after repairs have been completed. This usually occurs due to insufficient adhesion of the materials indicated above. The mesh allows you to form a monolithic slab that is not afraid of any loads. Different meshes are designed for a specific load, and the type of material used depends on the thickness of the plaster layer.

Reinforcement of plaster with mesh

On a note! With the help of reinforcement, a durable coating is created that will not crack during long-term use. Even if the solution preparation technology is violated, the mesh will ensure the integrity of the plaster layer.

Types of reinforcing mesh

The material reinforcing the plaster must have a cellular structure and not react with the acidic (gypsum) or alkaline (cement) solution environment. In addition, it has high tensile strength, good elasticity and a service life exceeding the durability of the reinforced structure.

The following grids fully meet these requirements:

made of metal;
plastic (polypropylene, polyurethane, polyethylene, lavsan);
fiberglass;
basalt.

In addition, shingles are widely used to reinforce wood.

Metal

Metal mesh for plastering walls is made from galvanized and non-galvanized wire, a single sheet of stainless steel and reinforcing rod.

Advantages and disadvantages

Metal is a strong and durable material with many advantages :

has high strength, which allows you to: strengthen walls; keep a thick layer of plaster from delamination; withstand mechanical loads on the finish; resist vibration and shrinkage of the building;
rigidity - a minimum amount of fasteners can be used to attach to the wall;
fastening hardware does not increase the thickness of the solution;
forms a monolithic layer of plaster with the wall when the mortar has poor adhesion to the wall material, such as brick;
the only material that allows you to plaster metal surfaces is simply welded to the base;
versatility - there are no restrictions on the types of walls (you can always find a suitable option) and areas of application;
Easy to cut with metal scissors.

There are also disadvantages . Some of them are holding back sales growth:

high price compared to alternative options;
large specific gravity, creating additional loads on the wall and foundation. It is impossible to say that the wall will fall apart or the foundation will burst. But their service life will decrease. This is especially true for wooden and plasterboard walls, weak foundations;
complex fastening - installation is difficult without experience. The problem is the hardware, which you need to be able to mount correctly on the wall;
susceptibility to corrosion in aggressive solution environments. So, coating the metal with zinc helps little inside the gypsum solution.

Kinds

Based on the manufacturing method, the following types of mesh are distinguished:

all-metal expanded metal network (CPVS);
chain link;
welded;
woven.

TsPVS. All-metal expanded metal mesh is produced by cutting holes in a sheet of cold-rolled or galvanized steel and then stretching it on special machines. As a result of stretching, the cells take on the shape of a diamond or scale. The thickness of the finished mesh can vary from 0.4 to 2 mm, the slot length starts from 3 mm.

This manufacturing technology allows us to obtain the most durable metal reinforcing material. It does not deform under heavy loads and temperature changes. Retains all technical characteristics when one or more threads break. Has a long service life. Even non-galvanized metal can withstand the alkaline environment of CPR for decades.

The downside is the heavy weight - it creates a significant load on the walls and foundation.

Chainlink. This type of mesh is the most popular in the building materials market. But the main purpose is to construct barriers. It is rarely used for plastering, only on concrete and brickwork.

It is obtained by weaving carbon, high-alloy, stainless or galvanized wire with a diameter of 1-3 mm using a special technology invented in 1878 by Karl Rabitz - after the name of the inventor, the mesh became known as “Rabitz”.

Weaving with bending of threads allows you to obtain a flexible, yet durable material. It is durable and withstands the aggressive environment of solutions well. This type of reinforcing network is indispensable when finishing walls made of adobe and clay - it is easier to plaster using “Rabitz”. It allows you to easily obtain a layer of plaster of almost any thickness - it holds a large volume of plaster mortar due to its thickness.

The main disadvantage is the complicated installation. Several helpers are needed to first stretch, then unravel, and then support while attaching to the wall.

Welded. Already from the name itself it is clear that the reinforcing mesh is obtained by welding. To do this, low-carbon steel rods are laid perpendicular to each other and tacked with a welding machine at the intersection points.

The wire diameter and mesh size can be very diverse. Moreover, the thicker the rod and the smaller the cell, the stronger the reinforcement. The most popular product is a mesh with a cell of 5x5 mm and a rod thickness of 3 mm. This is enough for external and internal work, under cement mortar.

For information: you can find out the thickness of the wire by number. For example, welded mesh No. 3 means that the rod diameter is 3 mm.

Welded mesh canvas is most often used to strengthen masonry. But plasterers are no less willing to work with it. Especially on wooden walls, where filling traditional shingles is time-consuming and labor-intensive. But here we need a different cell size: 40x40 mm.

The advantage is low price and easy installation - no need to unravel and support during fastening. Fastening can be different: using hardware or glue. It goes on sale in the form of rolls 10-30 m long and 1 to 2 m high.

The main parameters of the welded mesh can be found in the markings. It has the following form: X C p D b x L, where X indicates the type of network, C indicates the type of connection - welded, p - rolled reinforcement, D - shows the diameter of the wire (if the rod is of different diameters, the designation takes the following form: d1/ d2), after the diameter the steel grade is sometimes indicated, b is the width, L is the length of the roll or sheet.

Woven. The adjective “woven” in the name of metal reinforcement appeared due to the characteristic weave of fabric made of stainless, galvanized or carbon steel wire of the same diameter. Woven fabrics made from non-ferrous metals are also available on sale. Cells are square or rectangular. The size 1x1 mm is obtained by plain weave, 1x2 and 2x2 mm - by twill weave.

The thickness of the wire used may vary. Based on this criterion, light, medium and heavy networks are distinguished. Each type of metal reinforcing materials discussed above has individual disadvantages that should be paid attention to.

Thus, welded galvanized mesh is deformed during long-term storage, resulting in their separation at the intersection of the rods. It doesn't seem to affect the overall strength of the mesh. But the problem lies elsewhere: welding damages the protective layer of the metal and it begins to actively deteriorate. The deformation of the cells in the expanded network is not restored. Chain-link requires a lot of installation effort.

Selection of plaster

The functional significance of finishing the base is enormous; it creates additional protection from moisture, improves thermal insulation, and gives the house a more aesthetic appearance. The selected material must meet high requirements: be moisture resistant, withstand temperature changes, and soil freezing.

Popular options for basement finishing: concrete, plaster, facing with artificial or natural stone, tiles, siding. Among them, plastering is the most common.

The base is leveled with cement mortar and is ready for decoration, for example, with clinker tiles.

Cement-sand and cement-lime plasters are best suited for exterior work. They are durable and moisture does not harm them. In addition, they are rarely affected by mold.

Expert opinion

Sergei Shablovsky

Plasterer

Cement for plaster is taken of high grade M400 or M500, this should be taken into account when mixing the components yourself; sand is sifted with medium grain size. Approximate proportion 1:(3–4). The main thing is that the material is homogeneous and fits well on the wall. For ease of work, mixtures with the addition of lime are often used in the solution.

If plaster is applied over insulation boards, then a cement-based adhesive composition must initially be applied to their surface. Thickness is approximately 3-4 mm. A fiberglass or metal mesh is attached to it, and then a leveling and decorative layer of plaster is applied. Read more about this.

Fiberglass

Fiberglass mesh for plaster is a composite material. They have a reinforcing strand, consisting of fibers not twisted together, covered with an anti-corrosion layer of polymers. The structure is clearly shown in the photo.

For reference: basalt threads have the same structure, where basalt fiber is used instead of glass roving.

Advantages and disadvantages

According to professional plasterers, this is the best option for most types of plastering work. Consumers like it for the following advantages:

high tensile strength during deformation - the figure is approximately 2 times higher than that of metal;
resistance to mechanical loads during vibration;
reliability and stability (does not change linear dimensions) in different operating conditions - perfectly withstands high and low (frost) temperatures;
plasticity and flexibility, allowing to reinforce curved surfaces;
elasticity - inferior to polypropylene, but superior to all types of metal mesh;
resistance to deforming loads - integrity and shape are maintained during bending and twisting;
good adhesion to all types of solutions;
absence of destructive processes: rotting, corrosion, decomposition in alkaline or acidic solutions;

Fiberglass mesh.

durability - manufacturers indicate a service life of up to 100 years;
simple installation: easy to cut; simply attaches to the wall; installation can be done immediately after unpacking - there is no “shape memory”, i.e. you don’t have to wait for the material to straighten;
light weight - about 6 times lighter than metal, 1.4-1.8 times lighter than plastic;
fire resistance;
affordable price;
versatility - can be used for interior and exterior work.

There are also weaknesses:

is destroyed at a temperature of +200oC and above;
An assistant is needed for tensioning when attaching to the mortar.

Kinds

Alkali-resistant fiberglass mesh is produced not according to GOST, but according to TU. In them, the main characteristic of the material is density. Depending on its size, the following types of fiberglass for plasterers are distinguished:

painting for interior work. Its characteristics: density - 50-60 g/cm3; cell size - 2x2; 2.5x2.5; 3x3 mm. Used for leveling walls and ceilings, strengthening internal and external corners, as well as door and window slopes, strengthening joints and cracks;
interior Density - 60-70 g/cm3, cells - 5x5 mm. It is used for leveling load-bearing surfaces, strengthening slopes in window and door openings, for putty;
universal mesh. The main purpose is external and internal work when applying several thin layers of plaster. Density - 120-130 g/cm3, cell size - 5x5 mm;
putty. The density is much higher - 145-160 g/cm3. Cells from 5x5 to 10x10 mm. It is used for insulating facades with basalt wool or polyethylene, restoring a building, waterproofing the foundation and plinth;
armored Used to increase the strength of plaster when finishing with tiles or porcelain stoneware. Cell size - 5x5 mm, density - 270-340 g/cm3.

In addition to the usual mesh, manufacturers offer:

self-adhesive fiberglass material - used for plastering polystyrene foam, expanded polystyrene, smooth concrete;
serpyanka mesh - a narrow strip of fiberglass. Used for sealing seams and joints, cracks.

Marking

The markings on the insert will help you select a mesh. Letters and numbers are used. The numbers indicate density and tensile strength, the letters indicate the purpose and quality characteristics:

“C” - plaster mesh;
“SS” – fiberglass mesh;
“N” - used for outdoor work;
“B” - internal;
“Ш” - putty;
“A” - anti-vandal (basement);
"U" - reinforced.

For example, the inscription “SSSH 160-3700” means that the mesh is fiberglass, putty, with a density of 160 g/cm3 and a tensile strength of 3700 N.

Application area

Most often, fiberglass mesh is used to create a durable top layer of plaster. It prevents it from cracking, peeling, or peeling. In this case, the mesh is attached not to the spray, but to the ground, slightly submerging it in the main layer of plaster.

Fiberglass is also widely used to improve the adhesion of the solution to smooth surfaces from which it slides. Here you already need a self-adhesive version of the reinforcing mesh. There is practically no alternative material when reinforcing seams and joints in sheet materials, panels and blocks, cracks - serpyanka comes to the rescue.

Reinforcing fabric goes on sale in the form of sheets rolled into rolls (usually 1 m wide, up to 100 m long), strips (45 and 100 mm wide, 20 to 150 m long) and corners (30 mm shelf width, 2 mm thick). mm, length - 2.5 m).

Plastering the surface

After installing the beacons, you can proceed to the plastering process. Plastering walls on a grid is carried out in several stages, at each of which one layer of mortar is applied.

First stage. Plastering is usually carried out in 2 or 3 layers, depending on the material of the walls. The initial layer is applied by “spraying”. To do this, prepare a solution whose consistency should resemble sour cream. The finished mixture is poured over with a trowel or ladle in any order. The solution can be spread, but the first option is easier and faster. The applied mixture is leveled with a spatula. The thickness of the “spray” layer should be about 10 mm.

Throwing plaster on the wall

Second phase. After the first layer has completely dried, a thicker mixture of dough-like consistency is kneaded. The solution applied using a trowel is leveled with a rule, which is pressed against the beacons and pulled from the bottom up. This layer should completely cover the reinforcing mesh. After the solution has set, the profiles are pulled out and the remaining furrows are sealed.

Leveling the plaster layer using the rule

Third stage. The final procedure is the final leveling of the frozen surface. To do this, prepare a liquid solution and, applying it to the wall, rub it in a circular motion using a grater.

The above plastering technology is suitable for finishing any surface, regardless of what kind of reinforcing mesh is used.

Source

Basalt reinforcement

Basalt reinforced mesh for plaster is produced using two technologies:

from roving (untwisted fiber of a tow or thread) - the structure repeats the fibers of fiberglass;
twisted basalt threads.

Weaving of nets is carried out on knitting and stitching machines. From roving it is immediately supplied to the commercial network, from twisted threads it is first impregnated with protective compounds that prevent destruction of gypsum or cement in an aggressive environment, and only then goes on sale.

Such fittings are popular among plasterers. Its advantages:

high strength: tensile strength - 50 kN/m, tensile strength - 53.6 kN/m. Such indicators make it possible to perfectly withstand deformations, bends, and increased loads that appear during the operation of the building;
resistance to high and low temperatures - 25 freezing cycles resulted in a loss of tensile strength of only 5%;
resistance to aggressive environments of various solutions;
does not rot, does not corrode;
has good adhesion to gypsum and cement mortars;
has a long service life - 50 years or more;
bends well - you can reinforce surfaces with complex geometries;
easy to use - easy to cut with ordinary scissors and install;
does not create radio interference;
light weight - one square meter weighs 320-360 grams;
low price;
moisture resistance.

There are no shortcomings, which is very rare for building materials.

Dimensions

Unlike fiberglass, the number of sizes is limited. The thickness of the thread varies from 2 to 4 mm, the cell size is 25x25 and 50x50 mm. Rarely, but there are cells of 5x5 mm and 150x150 mm. Sold in the form of a canvas with a width of 50 to 500 cm, rolled into rolls.

Application area

It is used to strengthen plaster on facades, plinths and on walls inside the building.

How to choose the right mesh for wall reinforcement

The choice of material depends on various factors:

composition of the plaster mixture;
material of plastered structures;
plaster thickness;
operating conditions.

To reinforce cement-based plaster mortar, a mesh that is resistant to alkalis is selected. When using gypsum solutions, any reinforcing material will do.

It is not economically feasible to use heavy-duty, expensive imported reinforcing materials. It is better to opt for domestic meshes, which are not inferior in technical characteristics to foreign analogues.

Benefits of fiberglass reinforcement

Fiberglass reinforcing mesh is ideal for plastering walls inside and outside buildings for various purposes. Its advantages:

has excellent adhesion to structures made of various building materials, all plaster and putty compounds;
withstands heavy loads;
resistant to aggressive atmospheric and chemical influences;
protects the plastered surface from the formation of cracks.
a large assortment allows you to choose any material to reinforce plaster of different thicknesses;
the lightness of the material allows it to be transported in any car, while saving on transportation;
does not pose a risk of injury during installation, unlike metal analogues;
easy to cut and install.

Shingles

Shreds are knocked out of a row of plaster mesh. It's not a mesh at all. But without it it is impossible to plaster wooden walls, be they logs, beams or boards. Sometimes they try to use welded metal mesh, but only on interior partitions.

On load-bearing walls, especially in new buildings, there is a high risk of metal deformation due to the “breathing” of wood - linear dimensions change greatly under the influence of humidity. Deformed reinforcement will tear the plaster. But in old wooden houses, where the wood has dried well, everything can be reinforced with welded mesh. The drani does not have this problem - it breathes synchronously with the wall.

Shingles are narrow planks from 1 to 2 m long, 15-20 mm wide and 3 to 5 mm thick. Sold in packs of 50 or 100 pcs. in each. They are quite expensive.

Advantages and disadvantages

Among the strengths of drani:

environmental friendliness - natural wood cannot be an allergen or emit harmful substances;
is not afraid of changes in temperature and humidity - can be used in unheated rooms, on balconies and loggias;
improves the heat and sound insulation properties of the wall;
light weight;
simple installation technology - the whole process can be done with your own hands.

Flaws:

burns well - requires treatment with fire retardants. In practice, such a procedure is not carried out, the explanation is simple - in case of a fire it still won’t help, and money is never superfluous;
susceptible to rotting - protective impregnation is needed, but without oil elements (it is not friendly with solutions). Experienced plasterers prefer good drying instead of treating with special compounds;
high price, as already mentioned above.

In addition to the plaster mesh, there is also a painting mesh, which has several varieties:

putty mesh. Made from fiberglass. Looks like textiles. Cells 2x2 mm. Thickness - 0.8-1.2 mm. Density up to 60 g/cm3. Used to increase the strength of putty when painting walls. Not applicable for other types of finishing;
fiberglass - glass fibers pressed into a thin sheet. Sometimes called a spider web. The purpose is the same as that of the putty net;
serpyanka - putty mesh cut into strips. For ease of use, many manufacturers apply glue on one side. The main purpose is to reinforce cracks, joints, and seams between sheet materials.

Which grid and in what case to choose

When choosing a reinforcing mesh for plastering walls, you must consider:

type of plaster mortar;
wall material;
application area. It is important here on which side of the wall the finishing is carried out: outside or inside the room, as well as the type of object;
thickness of the plaster layer.

Type of plaster mortar

The compatibility of the solution with the type of reinforcing material depends on its resistance to chemical reactions with the components of the plaster mixture. All main compatibility options are given in Table 1.

Table 1. Compatibility of different types of reinforcing materials with different plaster solutions.

Type of reinforcement / Type of mortar	Metal		Polymer	Fiberglass	Basalt
Type of reinforcement / Type of mortar	galvanized	regular	Polymer	Fiberglass	Basalt
Cement	+	—	+/-	+	+
Plaster	—	—	+	+	+
Acrylic	—	+	—	+	+
Polymeric	+	+	—	+	+

The table shows that gypsum solutions are not recommended to be applied to metal mesh. They have an acidic environment, against which wire protection helps little. And for CPR, the metal needs to be galvanized.

We need clarification on polymer films. Some of them do not react to the alkaline environment of cement plaster, some dissolve. When purchasing, you need to check with the seller or look at the certificate.

Wall material

The material of the walls does not always directly influence the choice of plaster mesh. For example, for all types of foam concrete blocks, when finishing facades, you can use metal reinforcement - here CPR is used, but not inside, because SNiP and SP recommend using gypsum for interior decoration, with which metal is not compatible. Recommended types of plaster for wall materials are given in Table 2.

Table 2. Recommended types of plaster mesh for different types of wall materials.

Wall materials	Types of reinforcing material
Wall materials	Metal	Polymers	Fiberglass	Basalt	Shingles
Concrete	+	—	+	+	—
Tree	+	—	—	—	+
Brick	+	+	+	+	—
Lightweight concrete	+/-	+	+	+	—
Drywall	—	+	+	+	—
Insulation (wet facade)	+	+/-	+/-	+/-	—

When strengthening the plaster layer over insulation (“wet facade”), not all types of lightweight mesh (polymers, fiberglass, basalt) are suitable for reinforcement. It is necessary to look at their purpose.

Application area

Externally, the fittings are used in extreme conditions. Therefore, fiberglass and basalt meshes are best suited. However, they cannot withstand a layer of plaster of more than 3 cm. In this case, there are two solutions: use metal reinforcement or two layers of glass and basalt mesh. One is placed at the bottom of the plaster layer, the second at the top. In terms of operational parameters, there is no big difference between the technologies. But the labor intensity and financial expenses need to be considered and the most optimal option must be chosen.

In addition, there is one more nuance: not all meshes are designed for facade work. You can find out the scope of application by marking. For interior work, light types of reinforcement are used: woven metal, polymer, fiberglass and basalt. When leveling a wall with a thick layer of plaster, use “Chain-link”, TsPVS or welded with a cell of 2x2 or 5x5 mm and a thickness of at least 2 mm.

For the ceiling, lightweight materials are needed for thin-layer gypsum plaster. In this case, the entire ceiling surface must be covered with overlapping fabric. The overlap is at least 10 cm. The joints between the ceiling and the wall are also reinforced with an overlap.

Preparing the wall for plaster and installing beacons

Even when using a mesh, the surface requires preliminary preparation:

First of all, the wall is freed from the old finish (if any) - paint, plaster, etc.
Next, dust is removed from the surface. If there is fungus and mold on the wall, the affected areas should be cleaned with a wire brush.
After this, the surface is treated with a primer, which improves the quality of adhesion, strengthens the base and prevents the formation of mold and corrosion.

After preparing the base and installing the reinforcing sheet, you need to install beacons that will help form a flat surface during the plastering process. A special profile is used as beacons.

Installation of beacons

Installation is as follows:

Using a building level, set the outer profile in a strictly vertical position and secure it with two self-tapping screws.
Next, the lighthouse is fixed using gypsum mortar.
The next step is to install a beacon on the other edge of the wall. To mount all profiles in the same plane, a thread is pulled between the outer guides.
Then the remaining beacons are installed, the distance between which should be less than the length of the rule.

Instructions for use

For each type of mesh there are several technologies for attaching to the wall. Let's look at the most common ones.

Metal fittings

Metal reinforcement can be secured using:

self-tapping screws;
dowel-nails;
staples

All operations are performed in the following sequence:

the roll is unrolled and leveled;
cut into pieces of the required size;

cleaned of oil - this is recommended by building regulations. In practice, I have never seen anyone wipe it;
markings are carried out for fastening hardware - the ideal option is 30 cm from each other (optimally 16 hardware per 1 m2). For “Chain-link” you can use 50 cm;
holes for dowels are drilled;
fasteners are hammered or screwed into the wall, but not completely;
a mesh is stretched over the fasteners, with an overlap of 10-15 cm;
the fasteners are driven tightly into the wall, but so that there is a gap of 2-3 mm between the mesh and the wall;
beacons are mounted on the solution;

plastering work is being carried out. First, the spray is applied, then the primer, and the coating finishes.

Lightweight reinforcing materials

Fiberglass and basalt mesh can be fixed in one way - submerged in a layer of mortar and covered with the same compound on top. Wall mounting with staples and hardware is also common. But why this is done is unclear. After all, only up to 8 mm of solution can be applied on top. And for such a thickness of gypsum plaster, reinforcement is useless.

The algorithm of actions for this technology is simple:

the wall is stitched (what it is and how it’s done can be seen here);
markings are applied for beacons;
the locations of the dowels are marked;

holes for fasteners are drilled;
dowels are driven into the resulting holes;
Screws are screwed in under the guides - all heads must be in the same plane;
the mesh is cut to size with a margin of 10-15 cm for overlapping installation;
a cement-sand mortar is prepared;
the first layer of plaster is applied - sprayed - to the area under the first sheet;
After leveling the spray, the mesh is attached to the solution. The hardware heads are carefully passed through the reinforcement cells;
the mesh is covered with a thin layer of new solution or rubbed over with the already applied one;
the spray is applied to a new area, after which the mesh is again attached to the solution with an overlap;
after attaching the reinforcement, beacons are installed along the entire wall;
primer is applied;
reinforcement is carried out again;
after the soil has dried, the plaster layer is covered with a cover;
the wall is plastered.

Important: the reinforcing mesh sunk onto the spray can be fixed not with mortar, but with construction staples.

Polymer reinforcement

Plastic mesh is attached to the solution, but using a slightly different technology:

the mesh is cut to size;
a base (primer) layer of plaster is applied;
the mesh is attached and pressed into the solution;
using a spatula, the reinforcement is leveled, from the middle to the edges;
the reinforcement is covered with a layer of putty.

Shingles

The rubbish is applied to the wall in 2 layers. For the first, lifestyle, thin, 3 mm thick and 25-30 mm wide slats are taken, for the second, weekend, thicker and wider slats are needed. They are packed crosswise at an angle of 45o relative to the floor. The technology is described in more detail here.

Installation of fiberglass sheeting

In this case, the plaster mesh is attached to the wall by fixing the material only along the perimeter of the canvas. First, using self-tapping screws, secure the upper edge of the mesh in several places, and then all other sides. Additional fasteners are usually not used, since later, when applying the solution, the mesh is securely fixed in the thickness of the plaster.

It is possible to fix the fiberglass mesh on the wall with just a plaster solution; if difficulties arise, you can use self-tapping screws

Since the mesh is initially rolled into rolls, for ease of installation it is better to unwind and fasten the material along the walls, parallel to the floor. You need to start fastening from the top, from any corner of the room. The joints are overlapped with an overlap of 15-20 cm.

You should know! It is best to cut the material so that you can stretch the whole fabric. This will ensure higher strength of the plaster layer.