Apart from admixture, can we add acrylic polymer in the ratio of 1:4 (AP:Water) before plastering?
Yes, we can add acrylic polymer to the plaster mix in a 1:4 ratio (AP:Water) as a bonding agent and water resistor. This is a common practice in the construction industry.
Acrylic polymer, when added to the plaster mix, provides several benefits:-
1. Improved bonding strength between the plaster and substrate
2. Enhanced water resistance and impermeability
3. Reduced water absorption and permeability
4. Increased flexibility and crack resistance
5. Improved durability and lifespan of the plaster
2. Enhanced water resistance and impermeability
3. Reduced water absorption and permeability
4. Increased flexibility and crack resistance
5. Improved durability and lifespan of the plaster
When adding acrylic polymer to the plaster mix, ensure:-
1. Mix the acrylic polymer with water first, following the 1:2 ratio (AP:Water).
2. Then, add the mixture to the cement or plaster mix.
3. Follow the manufacturer’s instructions for the recommended dosage and mixing procedure.
2. Then, add the mixture to the cement or plaster mix.
3. Follow the manufacturer’s instructions for the recommended dosage and mixing procedure.
Note that the exact mixing ratio and application instructions may vary depending on the specific product.
Which we can use admixture or acrylic polymer for long time good effect ?
For long-term good effects, acrylic polymer is preferred over admixtures for the following reasons:-
1. Durability: Acrylic polymer provides long-term durability against water exposure, UV rays, and extreme weather conditions.
2. Water resistance:- Acrylic polymer offers excellent water resistance, reducing water absorption and permeability.
3. Flexibility:- Acrylic polymer provides flexibility, allowing for movement and expansion without cracking.
4. Adhesion:- Acrylic polymer enhances bonding strength between the plaster and substrate.
5. Resistance to chemicals:- Acrylic polymer resists chemical attacks and degradation.
2. Water resistance:- Acrylic polymer offers excellent water resistance, reducing water absorption and permeability.
3. Flexibility:- Acrylic polymer provides flexibility, allowing for movement and expansion without cracking.
4. Adhesion:- Acrylic polymer enhances bonding strength between the plaster and substrate.
5. Resistance to chemicals:- Acrylic polymer resists chemical attacks and degradation.
Admixtures, on the other hand, may lose their effectiveness over time due to:-
1. Degradation:-
Admixtures can break down with exposure to water, UV rays, and chemicals.
2. Leaching:- Admixtures can leach out of the concrete or plaster over time, reducing their effectiveness.
2. Leaching:- Admixtures can leach out of the concrete or plaster over time, reducing their effectiveness.
However, there are some advanced admixtures like silane-based or siloxane-based admixtures that can provide long-term water repellency and durability, similar to acrylic polymer.
In summary, acrylic polymer is preferred for long-term good effects, but advanced admixtures can also be considered depending on the specific application and requirements.
In the coastal area, can we use acrylic polymer mixed with cement for roof, toilet, kitchen, Lift Pit, and other areas for waterproofing treatment ?
In coastal areas, using acrylic polymer mixed with cement for waterproofing treatment can be effective, but it's essential to consider the following factors:-
1. High humidity and saltwater exposure:-
Acrylic polymer can degrade faster in coastal environments.
2. Water pressure and hydrostatic pressure:- Areas like lift pits and basements may require more robust waterproofing.
3. Chemical resistance:- Acrylic polymer may not be suitable for areas exposed to harsh chemicals or high pH levels.
2. Water pressure and hydrostatic pressure:- Areas like lift pits and basements may require more robust waterproofing.
3. Chemical resistance:- Acrylic polymer may not be suitable for areas exposed to harsh chemicals or high pH levels.
For coastal areas, consider using a waterproofing system with:-
1. High-build coatings or membranes
2. Advanced polymer technologies (e.g., polyurethane, polyurea, or epoxy-based systems)
3. Materials with high resistance to water, salt, and chemicals 4. Proper surface preparation and application techniques
2. Advanced polymer technologies (e.g., polyurethane, polyurea, or epoxy-based systems)
3. Materials with high resistance to water, salt, and chemicals 4. Proper surface preparation and application techniques
Acrylic polymer mixed with cement can still be used for:-
1. Roof areas with minimal water exposure
2. Non-critical areas like toilets and kitchens (but ensure proper surface preparation and application)
3. Areas with low water pressure and no hydrostatic pressure
2. Non-critical areas like toilets and kitchens (but ensure proper surface preparation and application)
3. Areas with low water pressure and no hydrostatic pressure
However, for critical areas like lift pits, basements, and areas with high water pressure, consider using more robust waterproofing systems specifically designed for coastal environments.
Can we suggest the water base polyurethane for roof waterproofingtreatmentin coastal areas?
Water-based polyurethane coatings are a popular choice for coastal areas roof treatment, offering several advantages:-
1. Water resistance:-
Excellent water resistance, ideal for coastal areas.
2. UV resistance:- Good resistance to UV degradation, reducing the risk of cracking and brittleness.
3. Flexibility:- Water-based polyurethane coatings retain flexibility, even in harsh coastal environments.
4. Saltwater resistance:- They exhibit improved resistance to saltwater exposure, reducing the risk of corrosion and damage.
5. Low VOCs:- Water-based coatings have lower volatile organic compounds (VOCs), making them a more environmentally friendly choice.
6. Easy application:- Water-based coatings are generally easier to apply and clean up.
2. UV resistance:- Good resistance to UV degradation, reducing the risk of cracking and brittleness.
3. Flexibility:- Water-based polyurethane coatings retain flexibility, even in harsh coastal environments.
4. Saltwater resistance:- They exhibit improved resistance to saltwater exposure, reducing the risk of corrosion and damage.
5. Low VOCs:- Water-based coatings have lower volatile organic compounds (VOCs), making them a more environmentally friendly choice.
6. Easy application:- Water-based coatings are generally easier to apply and clean up.