Floor coating dispersant: the"invisible magician"who makes the ground color uniform

Floor coating dispersant: the "invisible magician" who makes the ground color uniform

In industrial plants, underground garages or commercial spaces, we often see smooth and bright floor coating surfaces. But what is less known is that behind these perfect coatings, there is a magical substance called "dispersant". It is like a magician in the microscopic world, allowing solid particles such as pigments and fillers to be evenly distributed in the coating, avoiding precipitation and agglomeration, and finally presenting ideal decorative effects and physical properties.

1. The core role of dispersants: breaking the "agglomeration spell" of particles

Floor coatings are composed of resins, pigments, fillers, solvents and additives. The dispersion state of pigments and fillers (such as titanium dioxide, calcium carbonate, talcum powder) directly affects the performance of the coating. These solid particles carry electric charges on their surfaces and are easily attracted to each other through van der Waals forces in liquids to form agglomerates. If not fully dispersed, the coating will have problems such as floating color, reduced hiding power, poor leveling, and even cracking or peeling of the coating film in severe cases.

Dispersants solve this problem through two mechanisms:

Chemical anchoring: One end of the dispersant molecule carries an anchoring group such as carboxylic acid or phosphate, which can form a chemical bond or hydrogen bond with the pigment surface and firmly adsorb on the particle surface. For example, polyphosphate dispersants (such as Huayue Epoxy Dispersant 110) can react with the epoxy group in epoxy resin to enhance the binding force between the pigment and the substrate.

Steric hindrance: The solvated chain segments such as polyether and polyester at the other end of the dispersant stretch in the medium to form a protective layer several nanometers thick. When particles approach, the chain segments compress to generate entropy repulsion, preventing agglomeration. This mechanism is particularly critical in solvent-based floor coatings, which can ensure that the pigment is suspended for a long time.

2. The "superpower" of dispersants: comprehensive empowerment from laboratory to construction site

1). "All-rounder" to improve coating performance

Color performance: Evenly dispersed pigments can give full play to hiding power and tinting power. For example, adding SY-1209W water-based carbon black dispersant to water-based epoxy floor coatings can improve the color development of carbon black by 30% and make the coating black more uniform.

Leveling optimization: dispersants reduce system viscosity and eliminate defects such as shrinkage cavities and pinholes. Huayue 110 dispersant can achieve mirror leveling effect in solvent-based epoxy flooring, and can still keep the surface flat during thin coating.

Storage stability: through the steric stabilization mechanism, dispersants prevent pigment sedimentation and stratification. Experiments show that the coating with 2% dispersant added can remain free of hard precipitation for 6 months in the 50°C accelerated aging test.

2). "Accelerator" of construction efficiency

Grinding time is shortened: dispersants wet the pigment surface in advance and reduce grinding energy consumption. Taking medium and low pigment carbon black as an example, the use of SY-1079A solvent-based dispersant can increase grinding efficiency by 40% and reduce energy consumption by 25%.

Improved spraying fluency: the viscosity of evenly dispersed coatings is stable, avoiding clogging of spray guns. In the automated spraying production line, dispersants can reduce the fluctuation of paint delivery pressure by 50% and improve the consistency of spraying quality.

3). "Balancer" of environmental protection and cost

Reducing VOC emissions: High-efficiency dispersants can reduce the amount of solvent used. For example, the super dispersant synthesized by controlled free radical polymerization technology has a concentrated molecular weight distribution and can achieve excellent dispersion effect at a low addition amount (1-2%), thereby reducing the solvent ratio.

Extending the life of the paint: Evenly dispersed fillers can better resist wear and UV aging. In underground garage floors, the service life of paints using high-quality dispersants can be extended from 5 years to more than 8 years, and the overall cost can be reduced by 40%.

3. "Selection Guide" of Dispersants: Wisdom of Adapting to Local Conditions

1). Select by System Type

Solvent-based floors: Polyphosphate esters and high molecular weight polyurethane dispersants (such as Huayue 110) are preferred, which have good compatibility with solvent-based resins such as epoxy resins and polyurethanes and excellent temperature resistance.

Water-based flooring: Anionic (such as sodium carboxylate) or non-ionic dispersants (such as glycol ethers) are required to avoid reaction with carboxyl groups in water-based resins. For example, SY-1209W water-based dispersant has the best stability in an alkaline system of pH 8-10.

2). Match according to pigment characteristics

Inorganic pigments (such as iron oxide, titanium dioxide): Select dispersants with acidic anchoring groups (such as phosphate, carboxylic acid) to firmly adsorb through ionic bonds.

Organic pigments (such as phthalocyanine blue, carbon black): Alkaline anchoring groups (such as amine, quaternary ammonium salts) or hydrogen bond donors (such as polyhydroxy compounds) are required to enhance the interaction force.

Composite pigment system: Use dispersants containing multiple anchoring groups (such as phosphate-polyether copolymers) to disperse inorganic and organic pigments at the same time.

3). Construction process considerations

High shear construction (such as spraying and roller coating): choose dispersants with lower molecular weight (5000-10000) to avoid excessive chain length leading to decreased leveling.

Low shear construction (such as scraping and self-leveling): high molecular weight (20000-50000) dispersants are required to provide stronger steric stabilization to prevent sedimentation.

4. Future trends: the rise of smart dispersants

As floor coatings develop towards high performance and multifunctionality, dispersant technology is also constantly innovating:

Responsive dispersants: trigger chain conformation changes through pH or temperature to achieve "on-demand dispersion". For example, when stored at low temperatures, the chain shrinks to reduce viscosity, and when the temperature rises during construction, it expands to enhance stabilization.

Nanocomposite dispersants: Inorganic nanoparticles (such as silica) are introduced into the dispersant structure, providing a dual stabilization mechanism of chemical anchoring and physical isolation, which is suitable for high solid content coatings.

Bio-based dispersants: use renewable resources such as vegetable oils and sugars as raw materials to reduce dependence on petroleum-based products. At present, polyester bio-based dispersants have been industrialized in water-based epoxy flooring.

Conclusion

From the anti-slip floor of the underground garage to the clean floor of the electronic factory, from the artistic floor of the commercial space to the weather-resistant floor of the outdoor square, the dispersant has always been silently guarding the quality of the coating behind the scenes. It uses precise control at the molecular scale to weave countless microscopic particles into a uniform macroscopic network, so that every inch of the ground can show the best performance and beauty. With the advancement of materials science, this "invisible magician" will continue to unlock more possibilities and bring more environmentally friendly, efficient and intelligent solutions to the floor coating industry.