Features of improved plastering

Hey everyone, welcome back to my channel! Today, I’m excited to dive into the world of plastering and explore some of the amazing features that have been developed to improve this age-old craft.

Whether you’re a seasoned pro or just starting out, there’s always something new to learn when it comes to plastering. In this video, we’ll be taking a look at some of the latest advancements that can make your plastering projects easier, faster, and more efficient.

From innovative materials to cutting-edge techniques, we’ll cover a range of topics that will help you achieve stunning results. So, grab your tools and get ready to learn about the exciting features of improved plastering!

Improved plaster is a modern building material that combines the best qualities of traditional plaster and modern technologies. It is characterized by:

• High strength and durability: Improved plaster is resistant to cracking, chipping, and other damage, making it ideal for long-lasting applications.
• Excellent adhesion: It adheres strongly to various surfaces, including concrete, brick, and wood, ensuring a secure and long-lasting bond.
• Good thermal insulation: Improved plaster helps to regulate the temperature inside buildings, reducing energy consumption and improving comfort.
• Sound absorption: It effectively absorbs sound, creating a quieter and more peaceful environment.
• Moisture resistance: Improved plaster is resistant to moisture, making it suitable for use in bathrooms, kitchens, and other areas prone to humidity.
• Fire resistance: Some types of improved plaster offer fire-resistant properties, enhancing the safety of buildings.
• Aesthetic appeal: Improved plaster comes in a variety of textures and colors, allowing for creative and visually appealing finishes.
• Ease of application: It can be applied using traditional plastering techniques, making it accessible to both professional and DIY users.

Improved plaster typically has the following technical characteristics:

• Compressive strength: 10-20 MPa
• Flexural strength: 2-5 MPa
• Adhesion strength: 0.5-1.0 MPa
• Water absorption: 5-15%
• Density: 1,400-1,800 kg/m³
• Thermal conductivity: 0.3-0.7 W/(m·K)
• Sound absorption coefficient: 0.2-0.7

These characteristics may vary depending on the specific type and brand of improved plaster used.

The optimal layer thickness for applying improved plaster depends on the specific application and the desired finish. Generally, the following guidelines apply:

• For interior walls: 10-20 mm
• For exterior walls: 15-25 mm
• For ceilings: 10-15 mm

It is important to follow the manufacturer’s instructions for the specific product being used.

The application of improved plaster should comply with the relevant building codes and standards, such as SNiP (Building Norms and Regulations). The technology of work execution typically involves the following steps:

1. Surface preparation: The surface to be plastered should be clean, dry, and free of dust, grease, and other contaminants.
2. Mixing the plaster: The improved plaster should be mixed according to the manufacturer’s instructions, using the correct proportions of water and powder.
3. Application: The plaster is applied to the surface using a trowel or other suitable tool, ensuring a uniform thickness and smooth finish.
4. Curing: The plaster is allowed to cure for the recommended time, typically 24-48 hours, before further work is done.

It is important to follow the manufacturer’s instructions and safety precautions when working with improved plaster.

Improved plaster is a versatile material used for a variety of applications, including:

• Leveling walls and ceilings: It can be applied to various surfaces, including brick, concrete, and wood, to create a smooth and even surface for further finishing.
• Decorative purposes: Improved plaster can be used to create textured finishes, moldings, and other decorative elements.
• Repairing damaged walls: It can be used to patch holes, cracks, and other imperfections in walls and ceilings.
• Improving sound insulation: Improved plaster can help to reduce noise transmission between rooms.
• Increasing fire resistance: Improved plaster can help to improve the fire resistance of walls and ceilings.

The application of improved plaster involves several steps:

1. Surface preparation: The surface to be plastered should be clean, dry, and free of dust and debris. Any loose paint or wallpaper should be removed.
2. Mixing the plaster: The plaster should be mixed according to the manufacturer’s instructions. It is important to use the correct amount of water to achieve the desired consistency.
3. Applying the plaster: The plaster can be applied using a trowel or hawk. It should be applied in thin layers, starting from the bottom of the wall and working upwards.
4. Leveling and smoothing: Once the plaster has been applied, it should be leveled and smoothed using a trowel or float.
5. Curing: The plaster should be allowed to cure for at least 24 hours before being painted or decorated.

Here are some tips for applying improved plaster:

• Use a respirator and safety glasses when mixing and applying the plaster.
• Wear gloves to protect your hands.
• Work in a well-ventilated area.
• Do not apply the plaster in temperatures below 50 degrees Fahrenheit.
• Allow the plaster to dry completely before painting or decorating.

The application of improved plaster should be carried out in accordance with the relevant SNiP (Building Norms and Regulations) and industry standards. These standards provide guidance on the materials, methods, and quality control procedures that should be used.

By following these guidelines, you can ensure that the improved plaster is applied correctly and will provide the desired results.