Chemical Industry: The unspeakable secrets of fumed silica and coatings

Is the coating good, fumed silicaThe role played is important. Fumed silica (fumed silica) can not only be used as a rheological additive and dispersant in paints and coatings, but also has anti-settling, anti-caking, matting and anti-corrosion functions. It has been continuously practiced and widely used in the field of coatings and occupies a place. The following is a brief introduction to the secret mechanism of fumed silica and coatings.

1. Rheological additives

The surface of untreated fumed silica contains a large number of hydroxyl groups. In oily systems, it is easy to form a uniform three-dimensional network structure through mutual hydrogen bonding, which can increase the viscosity of the paint. When this three-dimensional network structure is subjected to mechanical shear force, it will be destroyed, causing the viscosity of the paint to decrease and good fluidity to be restored. When the shear force is eliminated, the three-dimensional structure (hydrogen bonds) will restore itself and the paint viscosity will increase. This characteristic of fumed silica gives oil-based coatings very good storage performance and construction performance, especially thick-build coatings (such as ship paint), which can ensure that the coating has good fluidity under a certain construction shear force. , and can ensure the thickness of the coating film in one application.

2. Assistant dispersant

In the powder system, due to the small particle size of fumed silica With high surface energy, they can be adsorbed on the surface of coating powder and form a surface layer on the surface of the powder to improve the dispersion of the powder. In the same coating system, adding fumed silica can significantly shorten the dispersion time and improve production efficiency.

Fumed Silica

3. Anti-settlement and anti-caking

There are a large number of silanol bonds on the surface of fumed silica, which can form hydrogen bonds with itself or with the substrate, forming a “net”-like structure to “hold” pigments or other fillers and prevent them from sinking or agglomerating. . Fumed silica has a thickening effect. Select the appropriate type of fumed silica to increase the viscosity of the paint to a certain extent. Then the resistance of the pigment or filler during the falling process will naturally increase, which can effectively prevent settling or agglomeration.

Fumed silica has high surface activity. Through modification treatment, The surface charge of fumed silica can be adjusted, because in some specific coating applications, pigments or fillers also have certain activity and can agglomerate themselves or combine with each other. At this time, fumed silica can neutralize the charge. It prevents agglomeration or agglomeration between pigments and fillers and further improves the storage properties of pigments. In powder coatings, fumed silica can be used as an external additive. The fumed silica particles are adsorbed on the surface of the powder coating, blocking the paint particles and promoting fluidity. Some fumed silica can also prevent moisture. , to avoid paint clumping.

4. Matting

Paint can be matted because fumed silica has small particle size , with the characteristics of large surface activity and high purity, it is also widely used in the field of matting coatings. The specific mechanism of action is as follows: fumed silica has small particle size and a certain particle size distribution width, and can be directly used in matting systems; fumed silica It has high surface activity and anti-sedimentation effect. In the field of matting, it can prevent the settling of pigments and fillers, synergize matting, and can also be modified into products with wider particle size distribution. Fumed silica is different from most substrates and coating bodies. Not much refraction��, while matting, the coating can have high transparency; fumed silica, as one of the fillers, can also promote the coating’s scratch resistance, anti-slip and other functions; in addition, the spatial structure of fumed silica , also plays a role in promoting the scattering, absorption and dissipation of light.

Vapor Phase Silica

5. Anti-corrosion

The hydrophobicity of fumed silica is ideal for iron-containing metal protection Very important for corrosive coatings. Corrosion occurs when moisture and ions (such as sodium and calcium ions) penetrate and pass through the protective coating. The use of polar anti-sag agents or anti-sedimentation agents is equivalent to providing a channel for moisture and ions to migrate to the metal surface. The moisture accumulated on the metal surface will destroy the adhesion of the coating, thereby causing permeable blisters, making more metal surfaces exposed, accelerating corrosion.

At the same time, the presence of ions will greatly increase the ionization strength on the interface and accelerate the corrosion rate. Hydrophobic fumed silica does not provide a path for moisture and ions to migrate to the metal surface, so it is less effective than other types of thixotropic agents, such as treated clays, and compared to fumed silica that is not fully hydrophobically treated. Silica reduces the extent to which penetrating blisters and corrosion occur.

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