Alkyl Ketene Dimer (AKD) Wax is a highly effective sizing agent that has revolutionized neutral papermaking. However, to unlock its full potential – achieving excellent water resistance, superior printability, and optimal cost-efficiency – paper mill operators must master its application process. As a seasoned chemical supplier, we offer practical insights and tips for operators on how to best utilize AKD sizing agents.

Key Stages of AKD Sizing and Operator Best Practices

The AKD sizing process involves several critical stages, each requiring careful control and attention from the operators. Understanding how to use AKD sizing agent for paper effectively is paramount.

1. AKD Emulsion Preparation

AKD wax, being solid at room temperature, needs to be converted into a stable emulsion. This is typically done by mixing the molten AKD with water and emulsifying agents (like cationic starches or specialized surfactants) under controlled temperature and shear.

  • Temperature Control: Ensure the AKD is melted thoroughly (typically above its melting point of 47-60°C) before mixing. Overheating should be avoided as it can degrade the AKD.
  • Emulsifier Selection: Use emulsifiers recommended by the supplier. The correct type and concentration are crucial for creating a stable emulsion with the desired particle size.
  • Mixing Equipment: High-shear mixing equipment (like homogenizers) is often necessary to achieve a fine and uniform dispersion.
  • Stability Monitoring: Regularly check the stability of the prepared emulsion. If it separates or agglomerates, it can lead to uneven sizing.

2. Addition to the Pulp Stock

The AKD emulsion is typically added to the pulp slurry at the wet end of the paper machine. The point of addition should ensure good distribution and retention.

  • Point of Addition: Generally added after primary cleaners and before the headbox, ensuring it mixes well with the fibers.
  • Dosage Control: Accurate metering of the AKD emulsion is vital. Operators must ensure the dose is consistent and matches the target sizing level. Overdosing can lead to excessive sizing, while underdosing results in insufficient water resistance.
  • Retention Aids: If cationic retention aids are used, their interaction with the AKD emulsion needs to be managed to optimize retention on the fiber.

3. pH Management

AKD's effectiveness is highly dependent on the pH of the pulp slurry. Operators must maintain the pH within the optimal range for AKD sizing, which is typically neutral to slightly alkaline (pH 7.0-9.0).

  • Monitoring: Continuous pH monitoring at key points in the process is essential.
  • Adjustment: If the pH deviates, adjustments using alkaline chemicals (like sodium carbonate or sodium bicarbonate) should be made carefully.

4. Curing Process

The final stage is the curing of AKD, where it chemically reacts with cellulose fibers to form a durable hydrophobic layer. This process occurs primarily in the drying section of the paper machine.

  • Drying Temperature and Time: Higher drying temperatures and sufficient dwell time in the dryer section accelerate the curing process. Operators should ensure the drying sections are functioning correctly and temperatures are maintained at optimal levels.
  • Moisture Content: Proper moisture control throughout the drying process is important for effective curing.

Troubleshooting Common Issues

As a premier AKD sizing agent supplier in China, we recognize that challenges can arise. Common issues like inadequate sizing, emulsion instability, or deposits can often be traced back to deviations in these process steps. If you are looking to buy AKD wax, remember that supplier support and operator training are invaluable.

By adhering to these process tips, paper mill operators can ensure consistent, high-quality sizing results when using AKD wax. This translates to better paper products and more efficient operations. For reliable AKD supply and expert advice on the Alkyl Ketene Dimer Wax price and application, contact us.