TYPICAL TECHNOLOGICAL CARD
Installation of external thermal insulation systems for building facades Ceresit WM and Ceresit VWS
1 AREA OF USE
A typical technological map (TTK) was drawn up for the installation of external thermal insulation systems for facades of Ceresit WM and Ceresit VWS buildings.
The TTK is intended to familiarize workers and engineering and technical workers with the rules for the production of work, as well as for the purpose of using it in the development of work production projects, construction organization projects, and other organizational and technological documentation.
Thermal insulation systems Ceresit WM and Ceresit VWS (manufacturer - Henkel Bautechnik) are systems for external thermal insulation of facades of buildings and structures of the "bonded type", in which the following are used as a thermal insulation layer:
Mineral slabs made of basalt fiber (hereinafter referred to as mineral wool slabs) - Ceresit WM system;
Expanded polystyrene boards - Ceresit VWS system. At the same time, fire-prevention cuts are made of mineral wool boards.
The thermal insulation systems Ceresit WM and Ceresit VWS are designed for thermal insulation of both newly erected structures and reconstructed buildings.
Fig.1. Scheme of the Ceresit VWS insulation system
Fig.2. Scheme of the Ceresit WM insulation system
Note
1. On even, plastered substrates, the consumption of CT 85 and CT 190 can be 2-3 kg/m less.
2. The insulation project should determine the number of fasteners required. per 1 m and their type.
Ceresit WM and Ceresit VWS thermal insulation systems are the equivalent of a building product supplied as a kit of prefabricated, uniquely identifiable and certified materials. The use of non-system materials or materials from other manufacturers is not permitted.
Completion of all internal "wet" processes (masonry, concrete and plaster work, cement screed installation) and ensuring sufficient drying of the entire facility;
Roofing devices;
Installation of window and door blocks.
At the time of installation, measures must be taken to prevent water from entering the surface and into the systems.
Installation of thermal insulation systems should be carried out at air and base temperatures from +5°C to +30°C, unless otherwise specified.
3.1. Preparatory work
3.1.1. Installation of scaffolding
Scaffolding should be installed at a distance from the outer wall equal to the thickness of the insulation plus 45 cm. For anchoring the scaffolding, it is necessary to effectively use window and door openings, balcony slabs and other structures that reduce the number of attachment points passing through the thermal insulation system being installed. In places where it is necessary to ensure direct fastening of scaffolding to the outer wall, fixing anchors should be installed with a slight downward slope (Fig. 3). This will prevent rainwater from getting inside the thermal insulation layer. For ease of installation, scaffolding should be installed with a launch around the corners of the building at a distance of at least 2 m.
Fig.3
It is forbidden to install thermal insulation systems from hinged construction cradles.
Incorrect installation of scaffolding significantly complicates the installation of thermal insulation systems and increases the likelihood of poor-quality application of external decorative coating.
3.1.2. Preparation of the building base
Preparation of the building base should include the following operations:
Mechanical cleaning of the base from mortar residues, contaminants (dust, chalk, etc.) (Fig. 4);
Mechanical removal of efflorescence, cement and lime deposits and subsequent treatment of the cleaned surfaces with a special composition Ceresit CL 55(fig.5);
Mechanical removal of fungi, lichens, mosses, molds and subsequent treatment of the affected areas with the antifungal agent Ceresit ST 99.
Fig.4
Fig.5
Ceresit ST 99 contains organic biocidal components. Therefore, when working with the material, it is forbidden to eat, drink and smoke. Application of Ceresit CT 99 solution by spraying is not allowed!
Checking the bearing capacity of the base;
Removal of crumbling and fragile areas of the base;
Filling defects in the surface of the base with a depth of more than 20 mm with Ceresit ST 29 repair putty;
Treatment of the base with a universal primer Ceresit CT 17 (performed if necessary);
Rust removal and treatment with an anti-corrosion primer for metal parts covered with a thermal insulation system.
The building base should be checked for deviation from the plane. The unevenness of the base must not exceed 1 cm in all directions when checked with a 2 meter level. If the base does not meet these requirements, it must be leveled with mortar (eg Ceresit CT 29). If necessary, it is necessary to lengthen the brackets for fastening drains, lightning rods, outdoor lighting fixtures, etc., taking into account the thickness of the heat-insulating material planned for use.
3.2. Installation of thermal insulation systems Ceresit
When installing systems, the following sequence of operations must be observed:
Installation of a plinth profile;
Bonding thermal insulation boards to the base;
Mechanical fastening of heat-insulating plates with dowels;
Installation of reinforcing elements and profiles;
Creation of a protective reinforced layer;
Priming of the protective reinforced layer;
The device of the external decorative layer;
Priming and painting of the decorative and protective layer (performed if necessary);
Seal of places of fastening of scaffolding.
3.2.1. Mounting the plinth profile
Installation of the plinth profile should be carried out in accordance with the project, horizontally, in one plane, attaching it to the base with dowels. The distance between the dowels should not exceed 30 cm (Fig. 6). Between adjacent profiles, it is necessary to leave a gap of 2-3 mm for joining with the help of plastic connecting elements.
Fig.6
It is forbidden to connect the socle profile with an overlap.
In places where the plinth profile is attached, it is necessary to ensure its tight connection to the base, using special washers of appropriate thickness.
At the corners of the building, the base profile is formed using two oblique cuts and a subsequent fold. The connection of the base profile is carried out using plastic connecting elements (Fig. 7).
Fig.7
It is impossible to allow deformation of the base profile during its fastening.
3.2.2. Bonding thermal insulation boards to the base
Bonding of heat-insulating boards must be carried out using special adhesives:
Ceresit ST 190 - for gluing mineral wool boards;
Ceresit ST 85 - for gluing polystyrene boards.
3.2.2.1. Mortar preparation
Adhesive compositions are supplied as a dry mix in sealed bags. For the preparation of the mortar mixture, an accurately measured amount of clean cold water is taken (from + 15 ° C to + 20 ° C). The dry mixture is gradually added to the water with constant stirring, achieving a homogeneous mass without lumps. Mixing is carried out using a mixer or a drill with a nozzle for viscous substances. The stirrer rotation speed should be 400-800 rpm (Fig. 8).
Fig.8
Stirring the mortar mixture with a mixer with a stirrer speed exceeding 800 rpm can lead to segregation of the mortar mixture!
Then, a technological pause is maintained for 5 minutes to mature the mixture, after which it is stirred again.
During operation, the consistency of the mortar mixture is maintained by its re-mixing. Adding water to the mortar mixture is prohibited!
3.2.2.2. Applying adhesive to thermal insulation boards
Glue with a plastering spatula is applied to the heat-insulating boards with a roller 50-80 mm wide and 10-20 mm thick around the entire perimeter with an indent from the edges of 3-4 cm and additionally 5-8 "cakes" along the plane of the plate (Fig. 9). The strip of adhesive applied along the contour of the slab must have gaps to prevent the formation of air pockets. After installing the insulation plate in the design position, the adhesive contact area must be at least 40% of the area of the surfaces to be bonded.
Fig.9
Before applying the adhesive solution, the surface of the mineral wool board should be primed with a thin layer of the same adhesive solution.
When installing double-density mineral wool boards (eg ROCKWOOL Facade Batts PAROC FAS 4), the adhesive must be applied to the soft side of the board.
If the irregularities of the base do not exceed 3 mm, the application of the adhesive composition is carried out over the entire surface of the slab using a notched trowel with a tooth size of 10-12 mm (Fig. 10).
Fig.10
On mineral wool boards with a transverse fiber orientation (lamellas), the adhesive solution is applied exclusively over the entire surface of the board using a notched trowel with a tooth size of 10-12 mm, while combining the priming operation.
Immediately after applying the adhesive composition, the slab is installed in the design position, moving it in the vertical and horizontal directions with light rammers with a long grater. Excess glue that has come out is removed (Fig. 11).
Fig.11
Do not leave adhesive on the ends of the heat-insulating boards.
Heat-insulating boards are glued to the base from the bottom up, starting from the basement profile in horizontal rows, with the vertical seams tied in each row, and the plates should be geared at the outer and inner corners (Fig. 12).
Fig.12
When insulating the basement of the building, the insulation boards are glued from top to bottom, starting from the basement profile.
After installing the first row of thermal insulation boards on the plinth profile, the gap between the building base and the profile must be filled with polyurethane foam (eg Macroflex mounting foam).
Heat-insulating plates should be installed close to each other. In the event that after the installation of the plates there are gaps with a width of more than 2 mm, they must be filled with wedge-shaped strips cut from the heat-insulating material.
It is not allowed to fill the joints between the heat-insulating plates with an adhesive composition.
At the corners of window and door openings, heat-insulating plates with a corner cutout should be installed so that the joints of the seams with adjacent plates are at least 100 mm from the corner of the opening (Fig. 13). Joints between thermal insulation boards must be located at least 100 mm from the edge of the ledge on the base plane or from the border of different base materials (eg concrete areas in masonry).
Fig.13
If the window and door blocks are mounted in the plane of the facade, then the heat-insulating boards should be installed with an overlap on the box of the block of at least 2 cm. A sealing polyurethane tape or an adjoining profile must be glued along the perimeter of the box.
If the window and door blocks are recessed in relation to the plane of the facade, and it is necessary to insulate the slope, then heat-insulating plates of the main plane of the facade are first installed with the necessary overlap inside the opening, and then, prepared according to the size of the insulation plates, are glued to the slopes. A sealing polyurethane tape or an adjoining profile must first be glued around the perimeter of the box.
The sealing tape in the design position must be compressed by at least 1/3 of its free thickness.
The sealing tape must be cut at all corners. Rounding the corner with a continuous tape without a butt joint is not allowed.
In the Ceresit VWS thermal insulation system, floor horizontal fire cuts, edging of window and door openings are made of mineral wool boards. The height of the cross-section of the cuts and edgings must be at least 150 mm.
All elements (for example, electrical wiring, etc.) that are not removed from the facade and are under it during the installation of the heat-insulating layer are marked to prevent damage during subsequent doweling.
Cutting of heat-insulating plates is carried out using a steel ruler, a square, a knife with a wide blade and a saw with fine teeth.
The correct installation of each insulation plate in the design position is controlled by a 2-meter level.
Mineral wool boards sometimes have large inclusions of the binder used in their manufacture, which can later cause dark spots on the surface of the outer decorative layer. Therefore, after fastening the mineral wool boards, it is necessary to carefully examine their surface and mechanically remove the existing inclusions, and fill the formed shells with heat-insulating material.
3.2.2.3. Fastening EPS boards with CT 84 Express adhesive in the VWS system
CT 84 adhesive is applied with the mounting gun in the position with the cylinder up, keeping the distance between the gun and the plate sufficient for the correct application of the adhesive. The glue is applied along the perimeter of the slab with an indent from the edge of ~ 2 cm and one strip through the center of the slab, at an equal distance from its long sides (Fig. 14-15).
Fig.15
Then you should immediately attach the plate to the wall and press it with a small force with a long grater. The evenness of the surface of the expanded polystyrene boards can be corrected within 20 minutes from the moment of their gluing, also with the help of a long float. Excess glue CT 84 after drying can be cut off with a knife or sanded with a grater.
2 hours after gluing, the expanded polystyrene boards can be sanded, additionally fastened with dowels and a protective reinforced layer of CT 85 mixture can be made on their surface. Fresh adhesive residues can be removed with Ceresit PU Cleaner or acetone.
CT 84 can be used to fill gaps between EPS boards.
3.2.3. Mechanical fastening of thermal insulation boards with dowels
Mechanical fastening of heat-insulating boards with appropriate dowels is carried out only after the complete drying of the adhesive composition, but not less than 72 hours after gluing (at an air temperature of +20°C and a relative humidity of 60%).
Doweling is performed as follows:
A hole is drilled for the dowel with a depth of 10-15 mm more than the anchoring length;
A plastic dowel is inserted into the hole with a “by hand” force so that the dowel disk of the dowel is flush with the surface of the plate;
The metal spacer core is clogged (Fig. 16);
The plate disc of the dowel is puttied with an adhesive solution for gluing the plates.
Fig.16
After installation, the dowel disk must not protrude above the surface of the heat-insulating layer.
When hammering a metal spacer core, the possibility of damage to its plastic head should be excluded. Therefore, it is recommended to use a hammer with a rubber head when working or to hammer the core through a wooden gasket. A core with a damaged head must be replaced.
The number and type of dowels are determined on the basis of calculations in the project documentation. On a normal facade plane, dowels are usually fastened at the corners of the slabs and in their center.
At the outer corners of the building, in the zone of increased wind loads, at a distance R, which is 1.0 ... 2.0 m from the edge of the corner in each direction, reinforced doweling is carried out in accordance with Fig. 17, 18.
The Ceresit system for thermal insulation of building facades is based on the use of wet thermal insulation technology. The construction components include glue, decorative plaster, paint, insulation, etc. Any Ceresit product complies with ISO 9001:2000.
Ceresit brand insulation materials work most effectively in combination. The system developers took into account the characteristics of various materials and made them as compatible as possible. The resulting solution was repeatedly tested, after which it was released to the market.
The result - the consumer receives a system, each element of which is precisely verified and tested. The creators of the unique thermal protection did not forget about the decorative effect: a wide selection of finishing materials allows you to insulate any building. Even historical buildings can not only be thermally insulated, but literally restored! After the completion of the work, the building looks like new.
The technology of facade insulation with the Ceresit system is a closed system with a layer of protective plaster on top of the thermal insulation. The insulation is attached to the outside of the building with cement glue, and a thin protective layer reinforced with fiberglass is created on its surface. Decorative finishing of the facade consists of fine plastering.
In such a facade insulation system, two types of insulation are used - mineral wool (Ceresit WM) or expanded polystyrene (Ceresit VWS).
Mineral wool is attractive in that it passes steam well - after all, moisture accumulates and destroys the building, so it must come out in the form of steam. The use of this material allows the facade to “breathe” and not collapse longer. At the same time, polymer or mineral plaster with good vapor permeability should support the functions of mineral wool. The decorative layer for the Ceresit WM system is unacceptable in the form of acrylic materials.
Mineral wool slabs are glued with Ceresit CT-190 mortar, and the mixture is applied so that the surface with the adhesive makes up at least 40% of the area of the slab. After the glue has dried, the plates are fixed mechanically with dowels.
After fastening, a solution of Ceresit ST-190 is applied to the mineral wool slabs with a layer of 3 mm with a special trowel. A reinforcing glass mesh is embedded into this layer of the mixture, on top of which another layer of the mixture of 2 mm is applied. After that, the surface is leveled so that the grid is not noticeable. The dried treated wall is puttied with a Ceresit ST-16 primer, and after drying, it is plastered with a decorative mortar.
Installation of the Ceresit VWS system on expanded polystyrene, which has a low vapor permeability, is desirable for buildings with good ventilation, which will eliminate excessive moisture. It is clear that such a system is not shown for baths or pools. Finishing of facades on expanded polystyrene can be from any materials.
The facade insulation system on polystyrene foam Ceresit consists of two bases - wall installation and basement installation. So in the case of a wall, glue is applied as the first layer, on which polystyrene foam plates are attached. Then a mineral wool notch is applied, and all layers are reinforced with dowels.
After the glue has completely dried, a base layer of plaster is applied on top of the insulation, on which a reinforcing fiberglass mesh is stretched. Finally, the wall is primed and plastered with a decorative composition.
In the case of a plinth, a waterproofing layer is applied to the wall, on which extruded polystyrene foam is glued. Further, the base is sheathed with any materials at will. In general, decorative plaster of the Ceresit system can be mineral, silicone, acrylic, etc. in composition.
The Ceresit system is nothing complicated. However, its installation must strictly comply with the established rules of the manufacturer. Consider the stages of work.
Warming begins with an inspection of the facade itself, the roof structure and the basement. The walls and the basement area are checked for various damages, existing irregularities are eliminated.
Also, experts study the general condition of the roof and cladding, including waterproofing coatings and the finishing facade layer. After inspection, the nature and amount of pollution on the building envelope is determined. All problems found should be fixed.
Installation of plates begins from the corner of the structure. The first horizontal layer is placed on a perforated profile element. The height of the belt along the perimeter is 25 cm, the thickness is 4-8 cm. Expanded polystyrene products are glued with the Ceresit CT-85 composition.
Plates are mounted three days after the preparation of the building. Dowels equipped with cartridges and washers are used as fasteners. Holes for doweling are drilled either with a puncher or with a drill - the main thing is not to damage the surface of the previously mounted plates.
First, a waterproofing composition is applied, on top of which a reinforcing mesh is placed. The corners of the slabs are insulated with a perforated aluminum corner. The dimensions of the corners are 25 * 25 * 0.5 mm. In addition, it is necessary to strengthen the corners near windows, doors and convex ribs well. The profile is mounted in a fresh layer of the composition, after which it is puttied with it.
Further work is reduced to applying a reinforcing mesh to the adjacent wall to cover the profile, 10 cm in size. To glue the mesh, Ceresit CT-85 or Ceresit CT-190 is used.
The thickness of the second waterproofing layer ranges from 1-1.5 mm. If the system involves underground insulation, then after creating this layer, it is necessary to waterproof the underground areas with Ceresit materials of the CR, CP or BT group. As soon as they dry, the soil is poured back.
The finishing layer, as well as additional fasteners, is applied three days after laying the waterproofing insulation. First of all, it is necessary to prime the surface to be treated with the composition "Ceresit ST-16". After 3-6 hours, the structure is covered with one of the following decorative materials - Ceresit CT-35, CT-64, CT-36, CT-63, CT-137, CT-60.
Preparation of Ceresit CT-35 or CT-36 is carried out by mixing with water in a ratio of 1: 0.2-0.22. The ratio for Ceresit CT-137 is 1: 0.17-0.22. The duration of action of Ceresit CT-35 or CT-36 is 1 hour, CT-137 - 1.5 hours.
When insulating with mineral wool, finishing materials must have good vapor permeability. Because of this, the finishing layer can only be made from polymer or mineral plasters. In the system, they are represented by silicone compounds.
It has properties that prevent external influences, as well as give a decorative effect to the facade along with protecting the walls.
The modern market is rich in high-tech facade plastering products: they include facade plaster from various manufacturers, including the Ceresit mixture.
This manufacturer meets all the requirements of the facade coating. Ceresit is represented by a company that has been producing products for construction and decoration for decades.
Plants for the production of decorative plaster Ceresit are located in many countries, including Russia, which indicates the demand for the material, and, accordingly, the high quality of products. In addition, the technology for the production of facade mixtures is slightly different from analogues.
Ceresit consists of high-tech constituents, which endow the material with the appropriate qualities. A wide range of products will help determine the choice of material. The material is presented by the manufacturer in different texture options, with different composition (depending on the purpose).
Variety of colors and textures
Ceresit is widely used precisely because of its positive characteristics:
Color solutions
In addition, the material has good adhesive properties, which allows it to be used on different surfaces. Classification for use in cold and warm times also helps with the choice, especially when performing work in the cold season.
No technical flaws were found in this mixture: the material has proven itself as a quality product. If you can call a high price (compared to analogues) a disadvantage, then this is the only thing that does not always suit the buyer. The price is quite consistent with the quality, so having overpaid a little, you can feel complete satisfaction with the quality of the product.
Ceresit is a certified product, facade mixtures (for example, Decor Plus) meet the required quality criteria and have the following technical characteristics:
The plaster has persistent hydrophobic properties, low water absorption, resistance to pollution.
NOTE!
The mixture must not be frozen, and the opened package should be used as soon as possible, kept tightly closed.
Specifications
Facade is used to create a decorative outer coating. grooved plaster: this mixture is excellent for concrete surfaces, gypsum, sand, cement.
This feature allows you to use this facade material on any surface while maintaining texture.
Due to the composition of the plaster, its elasticity stands out in comparison with other mixtures.. In addition, such a coating does not fade and is mechanically stable.
If we consider the products of other manufacturers, then not all have a separation of mixtures into summer and. The issue of choice for this parameter is especially relevant when working at non-traditional times for repair work: in winter or cold spring or autumn.
Ceresit high-quality coatings are classified according to their composition:
Species Comparison
In addition, Ceresit formulations are made for subsequent painting or for topcoating without staining.
Facade mixtures are divided into "winter" (you can work with them at temperatures below 0 ° C) and "summer" (for work in hot weather).
Ceresit compositions have two textured patterns, the texture of which is achieved due to the presence of granules in the composition and by a certain application:
Types of invoices
Any texture can be presented in different colors, and if necessary, it can be additionally painted. For coloring, it is advisable to use Ceresit paints, which may contain acrylic, silicate or silicone components.
To prepare the mixture, you must have a container (bucket) for mixing it (use only stainless steel utensils). The manufacturer most often produces plaster in bags of 25 kg.
For the correct calculation of the required amount of the mixture, it should be taken into account that the recommended consumption of the mixture per 1 m² is from 2.5 kg to 4 kg.
For 5-6 liters of water, it is necessary to fill in 25 kg (bag) of dry composition. Cold water must be used.
Stucco should be kneaded with a mixer or concrete mixer.
The mixture is left for three minutes to completely dissolve, and then it should be mixed again.
The prepared mixture should be used within three hours.
You can not use the frozen mixture.
Before applying the Ceresit mixture, prepare the base for finishing:
The boundary between the facade surface and the foundation is covered with a basement profile before being covered with facade plaster.
Before applying the facade plaster, a reinforcing layer should be applied:
Laying reinforcing mesh
To perform the finishing with Ceresit plaster, it is necessary to sequentially perform the following steps:
Create an invoice
To give the texture, the plaster should be applied in a circular, horizontal application, using a polyurethane half-ter.
For the “bark beetle” texture, mixtures with grains up to 2 mm to 3.5 mm in diameter are used. In this case, the surface is rubbed with a half-rubber strictly either in a vertical or horizontal direction. "Bark beetle" is made in white, so additional coloring is required.
NOTE!
When applying plaster of a pebble structure, various rollers are used, spatulas or graters and a mixture containing pebbles with a diameter of 1.5-2.5 mm.
Grouting plaster
Thus, Ceresit plaster is widely used due to its high-quality composition, compliance with high requirements for impact resistance, endurance, decorativeness, and durability. These mixtures, despite the fact that their cost may be higher than competitors, are in great demand. The facade covered with such plaster will acquire individuality and will be effectively protected.
Do-it-yourself application of the bark beetle decorative mixture on the facade of the building:
In contact with
Mounting technology "wet" facade becomes more and more popular, because there are a small number of cold bridges.
But this is not the last factor in the chosen technology. Thanks to this technology, you literally take out dew points outside the living space. As a result, the inner parts of the walls will not suffer from condensation. In our article, we will consider the step-by-step instructions for this finish.
The use of this technology is associated with the creation of a reinforced cake of several layers on the outer part of the facade walls. In the process of work, special plaster mixtures, mastics and adhesives are used. The technology consists in observing the following sequence of applying certain layers. The result is a single system with many advantages.
The wet façade is a new technology that provides a high level of heat retention.
The device of such a facade consists in creating three functional layers
In this case, the following types of plates are used as a heater:
Styrofoam boards characterized by high thermal performance. This material has a relatively low cost. It is light in weight, making it easy to install.
Mineral wool boards cost a little more. But they are more reliable in operation. It is a non-combustible material that stops the spread of fire. In addition, it has higher heat-shielding characteristics and is not exposed to aggressive environments.
Give preference to mineral wool made on the basis of diabase or basalt. It must not react with plastering compounds and must have high tensile strength.
Density of mineral wool insulation should be at least 130 - 140 kg / sq. m. Another important point is the coefficient of moisture absorption. It must be minimal.
It is important to follow the installation technology in the exact sequence. The beginning of work is always preceded by the necessary surface preparation. It consists in assessing and arranging the foundation, preparing wooden or metal scaffolding.
Examine the base. It must be freed from dirt. Check the substrate for load-bearing and adhesive properties. If the finish is partially damaged, it is removed and replaced with whole sections. If there are irregularities on the facade, the surface is leveled with a plaster composition.
If the facade is finished with a material with a high degree of absorption, it must be carefully primed. Also remove old plaster, if it is present on the surface of window and door slopes.
Now you need to install the profile bar. This design allows you to distribute the load from the heat-insulating plates, which are planned to be laid in the future. Also, the profile is necessary to protect the bottom row of plates from high humidity.
The profile is fixed taking into account the following rules:
To organize a “wet” facade, a heater is traditionally used, represented by mineral wool or expanded polystyrene slabs.
What is needed for the correct installation of plates?
You can resort to its device three days after installing a layer of thermal insulation. First you need to process the corner bevels on the doorways and windows, the outer corners of the house and the joints on the vertical slopes. And only after that it is possible to process flat sections of the wall.
Reinforcement is carried out according to this scheme:
As a result, the reinforcement thickness should be no more than 6 mm. A grid is placed at a distance of 2 mm from the surface.
After a week, the reinforcement layer will dry completely.. A plaster layer is applied over it. Use only plaster suitable for outdoor use. The plaster composition must have an increased degree of vapor conductivity, resistance to precipitation and mechanical damage.
Surface quality plaster is largely determined by the conditions in which it is applied to the surface. The optimal temperature regime is in the range from +5 to +30 degrees. It is important that during this period there is no strong wind and precipitation.
There must be a shadow. If it does not exist, it will have to be created artificially.
This technology has its own characteristics associated with the basement of the building:
Note! Finishing work should be carried out only after the complete installation of doors and windows, the erection of the roof, the laying of electrical wiring, the shrinkage of the erected house and the completion of internal finishing work.
Usually, when installing “wet” facades, everything ends with the application of decorative plaster. But if you prefer structural plaster, it can be additionally painted. This requires special paints that are suitable for finishing the outside of the building. The most common and popular type of structural plaster is "bark beetle".
The most important parameter is the period of work. There are temperature restrictions associated with the quality of the selected materials. All actions are performed at a temperature not lower than +5 degrees.
This factor affects both the quality of the work performed and the service life of wet facades. If the temperature regime is violated, the outer layer may crumble or crack.
The “wet facade” technology is interesting in that it can be used to do the work with your own hands. But still, you will need some knowledge and skills for plastering.
The main advantages of this technology are the following:
When installing a “wet facade”, it is necessary to adhere to the requirements of SNiP. Failure to comply with the requirements of SNiP reduces the quality of the work done, which leads to the fact that the effectiveness of a wet plaster facade is reduced to almost zero.
But, like other technologies, it has its drawbacks:
Today, there are two main options used for facade insulation:
ceresite offers its customers plaster and primer compositions ideal for the installation of a "wet" facade.
It has special durability. Their service life is at least 50 years.
During this time, repairs will not be needed, and the technical characteristics will not deteriorate.
There are two systems of facades ceresite- MV and PPP. The main difference is the use of a certain heat-insulating material and the option of applying a decorative coating.
System ceresite MV involves the use of mineral wool slabs for insulation. And in the Ceresit PPS system, expanded polystyrene is used.
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