Polyester Carbon Black Viscosity Reducer and Dispersant: Usage Guide

Polyester Carbon Black Viscosity Reducer and Dispersant: Usage Guide

In polyester systems, carbon black, due to its large specific surface area and strong hydrophobicity, is prone to agglomeration, leading to a surge in viscosity and uneven dispersion. Viscosity reducers and dispersants are key to solving this problem. The core of their use lies in precise matching and scientific operation. The following are practical points:

I. Core Principle: How to Break Agglomeration and Reduce Viscosity?

Carbon black agglomeration originates from strong van der Waals forces and hydrophobic interactions between particles. The resulting network structure locks in resin or solvent, increasing viscosity. Viscosity reducers and dispersants function through "two-way adaptation": the hydrophobic end strongly adsorbs onto the carbon black surface with anchoring groups, breaking up agglomerates; the resin-loving end extends to form a steric hindrance or electrostatic repulsion barrier, preventing particle re-agglomeration and simultaneously releasing the locked medium, thus reducing viscosity.

II. Key Usage Recommendations

(I) Precise Selection: Compatibility is Key

Selection should be based on the characteristics of the polyester system and carbon black: For solvent-based systems, prioritize high molecular weight dispersants; for aqueous systems, choose hydrophilic anionic or polyether-modified dispersants; for solvent-free systems, use low-volatile, highly compatible types. When the carbon black has a large specific surface area, choose dispersants with multiple anchoring groups; when the surface contains polar groups such as carboxyl groups, anionic dispersants offer more stable adsorption. Prioritize products explicitly labeled "viscosity reducing," balancing agglomeration breaking and friction reduction.

(II) Controlled Dosage: Avoid Overdoing It

The dosage is typically 1%-5% of the carbon black mass: 1%-2.5% for low specific surface area carbon black, and 2.5%-5% for high specific surface area carbon black. Insufficient dosage will prevent the formation of a complete adsorption layer, easily leading to agglomeration rebound; excessive dosage may cause decreased compatibility, bubbles, or viscosity problems. The optimal dosage can be determined through gradient experiments: With a fixed carbon black percentage, test the viscosity and stability at different addition amounts, and select the value with the best effect.

(III) Optimizing the Process: Enhancing the Dispersant's Effectiveness

The order of addition is crucial: First, add the dispersant to the polyester resin or solvent, stir at low speed for 10-15 minutes to dissolve it, then add carbon black in batches, dispersing each batch before adding the next, to reduce local agglomeration. During dispersion, first use high-speed equipment to initially break up the agglomerates, then refine them to 1-3μm using sand milling, controlling the grinding temperature below 60℃ to avoid dispersant failure.

(IV) Adjusting System Parameters: Adapting to the Dispersion Environment

Solvent-based systems require a mixed solvent with good resin solubility to avoid strong polar solvents damaging the dispersant structure; for aqueous systems, the pH should be adjusted to 7.5-9.0 to enhance the ionization and adsorption effects of the dispersant. The system solid content should be controlled at 30%-45% to balance viscosity reduction and workability; too high a content can lead to increased particle collision, while too low a content will affect color strength.

III. Common Problems and Solutions 

Poor viscosity reduction is often due to improper selection, insufficient dosage, or inadequate dispersion. This requires changing to a suitable dispersant, adjusting the dosage, or strengthening grinding. Viscosity rebound after dispersion may be due to excessive dosage or high solid content. This can be addressed by reducing the amount of dispersant added, appropriately lowering the solid content, and adding a small amount of anti-settling agent. If floating color or blooming occurs, it is often due to poor compatibility between the dispersant and resin or uneven dispersion. A more compatible dispersant should be used, and the number of grinding cycles should be increased. If adhesion is affected, the dosage needs to be optimized, and a low-volatile dispersant should be selected.

Summary 

The core of using polyester carbon black viscosity-reducing dispersants is "precise matching + scientific operation," ensuring synergy from selection and dosage to process and system parameters. Due to differences in raw materials, there is no universal formula; optimization through small-scale trials is necessary in practical applications. For special systems with high solid content or no solvents, detailed parameters can be provided for further discussion and solutions.