Based on the core mechanisms of fluorocarbon surfactants, including ultra-low interfacial tension, directional interfacial film formation and excellent weather resistance and stability, we address the industry pain points of traditional emulsification and dispersion systems such as high viscosity, easy agglomeration, demulsification, poor working condition resistance, redundant auxiliaries and high costs. Combined with various special application scenarios, we have developed a systematic formula optimization solution featuring low cost, high stability, low foaming, strong compatibility and easy construction https://www.fjsummy.com/. This solution focuses on optimal formulas for pure fluorocarbons, synergistic compound formulas of fluorocarbons, and tailored practical formulas for segmented industries. It is also supported by process optimization, quality control standards and cost reduction strategies, so as to resolve the core challenges of emulsification and dispersion in special systems.
Different from the single wetting and dispersion mechanism of traditional hydrocarbon and organosilicon dispersants, the formula optimization of fluorocarbon systems centers on "ultra-low dosage, synergistic efficiency, adaptability to working conditions, integrated functions and simplified formulas". It overcomes the drawbacks of pure fluorocarbon auxiliaries such as high cost and weak solubility in certain systems, and maximizes their advantages in interfacial regulation and long-term stability. The core optimization principles are as follows:
Low Dosage & High Efficiency Principle: Abandon the high-dosage mode of traditional dispersants. Leveraging the ultra-high surface activity of fluorocarbons, we strictly control the dosage to avoid foaming, viscosity increase and residual defects in the system, and improve the solid content and workability of slurries.
Compound Synergy Principle: Adopt the combined system of "fluorocarbon + hydrocarbon/organosilicon". The superior interfacial performance of fluorocarbons is combined with the high solubility and low cost of traditional auxiliaries to achieve complementary properties. This greatly cuts the overall formula cost and enhances the compatibility of the system.
Working Condition Adaptation Principle: Select anionic, amphoteric, nonionic and cationic fluorocarbon products according to diverse working conditions including high and low temperatures, strong acids and alkalis, high shear force, high solid content and metal substrates, ensuring the stability of the system under extreme environments.
Function Integration Principle: Utilize the multiple properties of fluorocarbons such as wetting, leveling, anti-static performance, anti-corrosion and low foaming to replace various single-function auxiliaries in traditional formulas. This simplifies formula components, reduces compatibility risks and lowers production and raw material costs.
Long-term Stability Principle: Optimize the proportioning and feeding process to enhance the compactness of the protective film on particle interfaces. It solves common industry problems such as emulsion stratification, powder sedimentation, particle coarsening, demulsification at high temperature and instability under high shear force.
