Let me introduce you to the silicone defoamer dealers who recommend adding dye based water-based Silicone Defoamer.
This product is a highly efficient defoamer composed of dimethyl silicone oil as the main defoamer component, combined with suitable solvents, emulsifiers, or inorganic fillers through a special process of composite emulsification. This product has good defoaming and dispersibility, and has multiple functions of defoaming and inhibiting foam. Can be done at different times.
This product has excellent performance, foam suppression ability, high temperature resistance, and is extremely easy to decompose formaldehyde, benzene series compounds, and dimethyl.
Defoamer is specially developed for lotion type silicone defoamer. Its main components are silicone polyether siloxane, namely silicone polyether surfactant, non silicone surfactant and carrier modifier.
The economic benefits brought by pure silicone polyether and silicone BMW demonstrate the prosperous prospects after consumption upgrading. On the other hand, the application of organic silicon can ensure that all components are installed.
Lubricants, paint additives, lubricants, oils, etc; By using certain anionic and non ionic surfactants, organic fluorine materials are copolymerized to achieve better weather resistance, defoaming, and foam suppression performance; Lubricants developed using certain organic compounds.
Compared with traditional solvent based coatings, lubricants do not contain solvents and can be used in solvent based coating systems. Solvent based coatings are used in various industrial coatings and have a slower diffusion rate for high acid value and toxic and harmful substances.
Used for baking paint in power plants, it can be mixed with various solvent based coatings to achieve optimal coating wetting and dispersion performance; At the same time, it can reduce the risk of hot air caused by fire during construction, improve internal viscosity, thereby improving the gloss and leveling of the paint film, improving the dispersion of pigments and fillers, and greatly improving consumption reduction.
Compared with commonly used organic solvent based defoamers, it can achieve economic defoaming performance for various industrial coatings.
Only when the intermolecular force of the defoamer is small and the surface tension is lower than that of the foaming solution, can the defoamer particles immerse and expand on the foam film. It is worth noting that the surface tension of the foaming solution is not the surface tension of the solution, but the surface tension of the auxiliary foaming solution.
The defoamer reacts with the foaming solution, causing the defoamer to lose its effectiveness and potentially producing harmful substances that affect the growth of microorganisms.
Firstly, it is necessary to determine the system that requires the use of defoamers, whether it is water-based or oil-based.