Redispersible Polymer Powder (RDP) is a crucial component in modern construction materials, providing enhanced properties to various formulations. With its unique characteristics and versatile applications, RDPplays a significant role in improving the performance, durability, and sustainability of construction products.
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1. Introduction to Redispersible Polymer Powder
Redispersible Polymer Powder is a free-flowing, white powder obtained through the spray-drying of polymer dispersions. These powders consist of a blend of synthetic polymers such as vinyl acetate ethylene (VAE), vinyl acetate/vinyl versatate (VeoVa), ethylene-vinyl chloride (E-VC), and others. The production process involves the conversion of liquid dispersions into solid powder form while preserving their polymer properties.
2. Chemistry of Redispersible Polymer Powder
The chemistry of RDP revolves around the polymerization of monomers to form stable polymer dispersions, which are later spray-dried to obtain the powder form. Key factors influencing the properties of RDPinclude:
Polymer Composition: Different polymers offer varying properties such as flexibility, adhesion, and water resistance. For instance, VAE-based RPPs are renowned for their excellent adhesion to various substrates.
Crosslinking Agents: Crosslinking agents can enhance the water resistance and mechanical strength of RPP. Common crosslinkers include polyfunctional aziridines and di-isocyanates.
Additives: Additives like dispersants, surfactants, and plasticizers are often incorporated to improve dispersion stability, flow properties, and flexibility of RDPformulations.
3. Manufacturing Process of Redispersible Polymer Powder
The production of RDP involves several stages:
Polymerization: Monomers are polymerized in aqueous solution under controlled conditions to form stable polymer dispersions.
Post-Polymerization Modification: Additional chemicals, such as protective colloids or crosslinkers, may be added to tailor the properties of the polymer dispersion.
Spray-Drying: The polymer dispersion is atomized into fine droplets and dried in a hot air stream to form solid particles. The process ensures the preservation of polymer properties while converting the dispersion into a free-flowing powder.
4. Applications of Redispersible Polymer Powder
RDP finds extensive use in various industries and applications:
Construction: RDP is a key component in cementitious materials such as tile adhesives, self-leveling compounds, mortars, and grouts. It improves adhesion, flexibility, water resistance, and workability of these formulations.
Paints and Coatings: RDP enhances the film formation, adhesion, and durability of water-based paints and coatings. It also serves as a rheology modifier, improving the application properties of these coatings.
Textiles: In the textile industry, RDP is utilized as a binder for non-woven fabrics, providing strength, flexibility, and wash resistance to the final products.
Pharmaceuticals: RDP serves as a stabilizer and binder in pharmaceutical formulations, enabling controlled release and improved bioavailability of active ingredients.
5. Benefits of Redispersible Polymer Powder
The use of RDP offers numerous advantages:
Improved Adhesion: RDP enhances the adhesion of construction materials to various substrates, resulting in stronger and more durable bonds.
Enhanced Flexibility: The addition of RDP imparts flexibility to formulations, reducing the risk of cracking and improving the overall durability of products.
Water Resistance: RDP provides excellent water resistance, making it suitable for use in exterior applications and wet environments.
Workability: RDP improves the workability and processability of construction materials, allowing for easier application and smoother finishes.
Sustainability: RDP enables the formulation of environmentally friendly products by reducing the use of traditional binders and improving the longevity of construction materials.
6. Future Trends and Innovations
The future of RDP lies in continued research and innovation to further enhance its properties and applications. Key areas of focus include:
Development of Sustainable Solutions: Efforts are underway to develop RDP formulations using renewable raw materials and eco-friendly processes to minimize environmental impact.
Advanced Performance Additives: The incorporation of advanced additives and nanomaterials can further enhance the properties of RDP, enabling new applications and improved performance.
Customized Formulations: Tailoring RDP formulations to meet specific application requirements will continue to be a focus, allowing for greater versatility and performance in various industries.
7. Conclusion
Redispersible Polymer Powder plays a vital role in modern construction materials, offering improved adhesion, flexibility, water resistance, and sustainability. With its unique chemistry, manufacturing process, and versatile applications, RDP is poised to drive innovation and advancement in various industries. By understanding the chemistry, manufacturing process, applications, and benefits of RDP, stakeholders can harness its full potential to create durable, high-performance products for a sustainable future.
Vinyl acetate-co-ethylene copolymers (VAE), available from Gantrade Corporation and Dairen Chemical Corp. in powder form, are white, free-flowing, dry powders that are readily redispersed into water to re-form a stable emulsion. Sometimes called solid latex, VAE redispersable powders (RDPs) are easy to ship, store (excellent storage stability), handle, and dry-mix versus VAEs in an emulsion form. VAEs account for the majority of the global market for redispersible polymer powders.
Dry mixing with other powders such as cement, sand, or light aggregate at a field site or manufacturing location can facilitate consistency and reliable performance. VAE-RDPs are used as cement and plaster modifiers or as a binder resin for inorganic materials such as gypsum and hydrated lime. Formulators also use VAE-RDPs as the sole binder resin for construction adhesives.
The advantages of incorporating VAE-RDPs in dry-mix formulations include improvements in workability and water retention, plasticity, dispersion, and freeze stability. The VAE resins are soft and flexible because of their relatively high ethylene contents. As a modifier, VAE-RDPs improve flex strength, crack resistance, adhesion, abrasion and impact resistance, and water repellency.
Applications for VAE-RDPs include the formulation of construction materials such as tile adhesives, grouts, finishing plasters, troweling compounds, thin set mortars, and sealing slurries.. The amount of VAE-RDPs added to cements and plaster is about 2-10 percent, depending on the improvement of strength, impact resistance, adhesion, and water resistance required of the compound.
VAE-RDP: Manufacturing Process
Vinyl acetate and ethylene are copolymerized in an emulsion process to first produce VAE compositions containing between 10 and 40 percent ethylene in the copolymer. Ethylene is a soft, hydrophobic monomer unit in the copolymers, functioning as an internal plasticizing moiety. In copolymers, ethylene effectively reduces the glass transition temperature (Tg) of the hard, polar vinyl acetate monomer, which has a Tg of 30 °C. Thus, we can achieve copolymers with Tgs ranging from +15 °C to minus 15 °C while converting the base emulsion resins used in the production of the VAE into redispersible powders. By using ethylene monomer to adjust the Tg, the formulator does not require any external plasticizers.
Weve depicted the manufacturing process for redispersible powders below. Starting with a VAE emulsion produced using a colloid stabilizer like polyvinyl alcohol, the emulsion is mixed with a fine mineral anti-caking agent and then spray-dried. This affords a stable, free-flowing powder which can be redispersed when mixed with water. The RDPs minimum solids content is 98 percent; the level of anti-caking agent content is up to 8-12 percent of the total weight. These VAEs have very low amounts of volatile organic compounds (VOCs) and low odor levels.
The picture below shows the free-flowing nature of the VAE-RDP. The SEM micrograph shows a VAE solid particle. The anti-caking agent or partitioning agent also appears in the SEM. The graph on the right shows the particle size dimensions (um) and number average distribution of the original VAE emulsion (red line) and the powder when redispersed into water (blue line). Noteworthy is the retention of the dimensions of the original VAE emulsion particle, after redispersing the powder. The blue hump in the graph is associated with the anti-caking agent.
VAE-RDP Grades, Properties and Applications
We can segregate the grades and general applications of the VAE-RDPs by glass transition temperature (Tg). The Tg of an amorphous polymer like VAE is the critical temperature at which the material changes its behavior from being a glassy solid to a rubber material. When the ambient temperature is above the Tg, the polymer becomes a rubber. When the ambient temperature is less than the Tg, the polymer becomes a glassy material.
In the series of VAE-RDPs, the grades range from low Tg soft materials (DA series) to medium Tg flexible materials (DA- series) to high Tg harder materials (DA series).
Special Grade
The dominant market for VAE RDPs is in the building and construction industry, where they are used to formulate dry-mix products. The global market for these types of products is projected to grow at more than seven percent. Technological developments in the field of thin-bed tile adhesives is one driver of growth. For wall tile adhesive applications, VAE-RDPs improve slump property, water retention, and workability. This allows tiles to be laid from the top to the bottom without experiencing tile slippage or the need to use spacers. VAE-RDPs also improve the leveling properties of tile adhesives and other cementitious materials.
Demand for VAE-RDPs has also grown into the area of skim-coat compounds, where VAE contributes increased wall adhesion and crack-bridging properties.
We have provided the recommended grades of Dairens VAE redispersible powders for various building and construction application applications in the chart below.
Selection Guide for VAE-RDP Grade in Construction Products Applications
Grades
Tile Adhesives
Sealing Slurry
Repair Mortars
Troweling Compounds
Self-Leveling Compounds
Thermal Insulating System
Mineral Plasters
Gypsum-based Compounds
Cementitious Wood Adhesives
DA-
DA-
DA-
DA-
DA-
DA-
DA-
SLEO Chemical supply professional and honest service.
DA-
DA-
DA-
DA-
DA-
DA-
DA-
recommended useful
In oil & gas well cementing operations, polymer powder/cement compositions present improved rheological properties and durability, while also imparting fluid-loss to cement slurries and oil field fluids. The powders enhanced gas migration control to the cement slurries with only a small effect on extending slurry set times. By improving particle-to-particle bonding, the hardened cements/polymer compositions exhibit better flexibility and strength properties, as well as higher adhesion and durability. For field operations, VAE redispersible powders have advantages in handling, storage, and field mixing, while enhancing water retention, workability, and mechanical strength properties, as well as decreasing permeability of the cementitious materials.
Sales Specifications
We have delineated the sales specifications for various grades of VAE-RDPs available from Gantrade and Dairen Chemical below.
Specification of VAE Redispersible Powder
Grade
Polymer Type
Appearance
Protective Colloid
Solid Content* wt%
Ash Content* wt%
Bulk Density g/ml
Average Particle Size um
50% Redispersion
Viscosity
cP 25 °C
10rpm
pH
Tg*
(Onset, °C)
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
15±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
--
7
15±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
--
--
15±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
--
7
15±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
--
7
15±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
500
7
15±5
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
0±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
0±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
0±3
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
-15±5
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
-15±5
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
-15±5
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
-15±5
DA-
VAE
White Powder
PVA
99±1
10±2
0.5
90
7
-15±5
DA-
VAE
White Powder
PVA
99±1
10±2
0.45
95
--
10
-15±5
The redispersible powders are available from Gantrade Corporation in 25 kilogram multi-layer paper bags with an inner plastic bag. We have packaged the 25 kg bags in 450 kg. carton boxes containing 18 units. Flexible jumbo bags are also available in both 550 Kg. and 600 kg sizes within a carton box. VAE RDPs absorb moisture and should be stored under dry and cool conditions to prevent caking.
We designed this article to help those looking to select the right VAE-RDP for enhancing your specific adhesive, construction compounds, or cementitious products. Gantrades professional staff is ready to assist with your selection, ensuring that you match the right VAE-RDP to the performance requirements of your application. Get in touch today!
The company is the world’s best VAE Re-Dispersible Polymer Powder For Tile Adhesive supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.