The application of baritic radiopian protection plaster is a specialized technology used to improve the aesthetic appeal and durability of home facades. This kind of plaster is well known for its strong defense against environmental contaminants, UV rays, and weathering.
The use of baritic radiopian protection plaster on different facade surfaces, such as stone, brick, and concrete, is especially appreciated. It serves as a barrier, keeping out moisture and lowering the possibility of long-term structural damage.
The first step in applying baritic radiopian protection plaster is usually surface preparation, which involves making sure the facade is clean, dry, and devoid of any contaminants or loose particles. In order to achieve a uniform and smooth finish, this step is essential.
After the surface is ready, expert artisans use specific tools and methods to apply the plaster in layers. To attain the appropriate thickness and guarantee uniform coverage throughout the facade, each layer is carefully applied one after the other.
In order for the plaster to properly strengthen and adhere to the facade surface, it must cure after application. The plaster can fully develop its protective qualities during this curing time, guaranteeing enduring resistance to the elements.
In conclusion, baritic radiopian protection plaster is a popular option for homeowners wishing to make an investment in the long-term upkeep of their property because it not only has practical advantages in terms of durability and protection but also improves the aesthetic appeal of home facades.
- The scope of application
- The components of the barite plaster
- Technology for the performance of work
- Main stages
- Features of applying plaster
- Video on the topic
- Installation of baritic panels Abris
- Baritic panel Abris. Radiation protection
- Baritic plaster X-ray-protective on a magnesian binding alphabolo shtet barre
- Baritic plaster
- Baritic plaster
The scope of application
Workers’ safety cannot be guaranteed by offices for X-ray and tomographic studies, research labs, or warehouses housing radioactive elements without protective screens. Regulatory acts – SanPin 2.6.1.119 2–03 – govern the requirements for premises. It is permissible to use baritic compositions to decorate radiation-exposed residential building walls; however, barit is toxic, so finishing is required on top of the baritic plaster. Although you can make the solution yourself, buying a ready-made dry mixture is preferable.
The components of the barite plaster
Among these finishing materials, baritic plaster is not the same. It is made up of the following components:
- Portland cement.
- Baritos -containing component.
- Plasticizing compounds.
- Water.
Portland cement above M300 is used for the solution (the best effect from brand 500). It is important to consider that the thickness of the plaster layer and cement consumption are dependent on the radiation power when manufacturing the composition independently. To achieve the ideal layer thickness of 25 mm, 1 kg of a dry mixture containing 120 g of cement is needed.
The primary radiation-resistant component is the different granulometric composition of baritic sand. The plaster’s thickness determines the granules’ size. Large-grained sand is added for a layer of 5 cm; for a layer of 2.5 cm, the granule size is 1.25 mm. Use barite dust, the smallest fraction, to shield the home from the background radiation from nature. Between 85 and 95% of the dry mixture’s primary ingredient (per kilogram of a mixture containing at least 850 g of barite sand) is made up of this ingredient.
Plasticizers are special additives added to the solution’s composition that make it easier to apply to surfaces and level them. Typically, these are polymer substances found in ready-made dry mixtures. You can use PVA glue in an amount of no more than 3% with the independent manufacture of the solution (30 g of glue per 1 kg of dry mixture).
Water is added to dilute the mixture, regardless of how it was prepared. It is sufficient to add 200 milliliters of water for every kilogram of dry material in the factory composition; for separately chosen materials, add liquid gradually until the required consistency is reached. 42 kg of dry plaster will be needed to cover 1 m² with an ideal layer of 2.5 cm.
In our most recent article, "Baritic Radiopian Protection Plaster: Application Technology," learn the crucial application methods for this type of plaster. This guide offers concise, detailed instructions to help you apply this specialty plaster to your home’s facade in a way that will protect and improve it. Learn everything you need to know in plain English to create a long-lasting and visually appealing facade treatment, from preparation to finishing touches.
Technology for the performance of work
The amount of work is determined by the plaster’s thickness and is estimated during the design phase based on the potential radioactive effects. Since the baritic plaster is applied in thick layers, a foundational preparation is a critical requirement for dependable adhesion. It is essential to remove the coating, finishing, nails, screws, and self-tapping screws before beginning any work. Next, use pressure on the walls, ceiling, and floor to identify and eliminate any lagging components. The ideal wall to have is one that is level. Potholes and cracks that show up on the surface need to be filled in using a cement-sand mortar.
Main stages
The work procedure Plaster application involves multiple steps:
- Primer. After preparation to improve the clutch of the solution with the base, it must be treated with a special composition – a primer.
- Reinforcing surfaces with a net. If the project provides for the application of multi -layer baritic plaster, then to increase the strength and prevent the sowing, the plaster mesh is mounted. It must be installed for every 15 mm thickness of the solution. The mesh structure is fixed with screws or nails in the “run” at a distance of 50 cm from each other, while stretching well, avoiding sagging.
- Application of the first layer. It should be a thickness of not more than 1 cm. On a damp surface, a strips are drawn to improve clutch layers of plaster.
- Primer. Plaster is allowed to dry and then treated with a primer. After 2 hours, you can start performing the second layer.
- The second layer. Thickness no more than 5 mm. The layer is necessarily well dried (the drying time of the solution is indicated in the manufacturer"s instructions).
- Installation of a plaster grid. It is stuffed similarly to the p. 2.
- The following layers are performed with periodic reinforcing and primer surfaces. After reaching the design thickness, the plaster should dry for a week and gain strength.
- Grinding. Before decorative decoration, the surface must be sanded. Due to the toxicity of baritic dust, the work must be performed in the respirator.
- Decorative finish. Serves to give aesthetics to the room, as well as to prevent the air of baritical dust in the air. Apply oil paint, wallpaper, plastic panels and other finishing materials.
Features of applying plaster
The following characteristics of the application technology are used when applying baritic plaster:
- The work is performed at a temperature in the room +15 … +35 ° C and moisture of 75%;
- Plastering is performed manually, without the use of special equipment;
- The prepared solution must be used within 45 minutes, otherwise it will lose its technological properties;
- The largest layer thickness is 10 mm, if you deviate from this rule, then the drying time and set of strength of the solution increases;
- To control the uniformity of the thickness of the layer, you can use the plastering beacons;
- The minimum layer when decorating partitions and floor – 30 mm, and for ceiling panels – 50 mm;
- In the ceilings, the barite composition is trained in neighboring rooms for 2 cm.
To ensure proper application and long-term durability, there are several essential steps involved in applying baritic radiopian protection plaster. By protecting building facades from various environmental factors, this specialized plaster improves both structural integrity and aesthetic appeal.
First and foremost, substrate preparation is crucial. The surface needs to be spotless and clear of any impurities that could hinder adhesion, such as oil and dust. For the purpose of creating a smooth and even surface on which to apply plaster, any loose material or coatings should be removed.
Next, accuracy and skill are needed in the application technique itself. In order to obtain the appropriate thickness and texture, baritic radiopian protection plaster is usually applied in layers using specialized tools. It is imperative to allow adequate curing time for every layer before proceeding to the next to guarantee a robust and even coating.
Moreover, the plaster’s composition is very important. High-grade binding agents, weather-resistant additives, and baritic radiopian components for improved protective qualities are frequently combined to create it. In addition to guaranteeing longevity, this composition helps the plaster resist inclement weather and hold onto its aesthetic appeal over time.
To sum up, learning how to apply baritic radiopian protection plaster effectively calls for careful attention to detail, appropriate substrate preparation, deft layering, and the use of premium materials. Builders and homeowners can effectively increase the longevity and resilience of building facades, providing both functional protection and aesthetic enhancement, by adhering to these guidelines.