The secret of the advantage of does not affecting recoating wetting agent

The secret of the advantage of does not affecting recoating wetting agent

1. Ensure the stability of recoating performance

Core advantage: Traditional wetting agents may migrate, remain or be incompatible with the upper coating, resulting in shrinkage, decreased adhesion or uneven gloss after recoating. Wetting agents that do not affect recoating are designed with molecular structures to avoid chemical reactions or physical interference with the upper coating, ensuring interlayer compatibility of multiple coatings.

Case: In automotive painting, if the primer wetting agent migrates to the surface, it may cause shrinkage in the topcoat. Using non-migrating wetting agents can avoid such problems and ensure the consistency of coating appearance.

2. Improve adhesion between coatings

Mechanism of action: This type of wetting agent promotes the wetting and spreading of the coating and the substrate by reducing the surface tension of the substrate, while forming a chemical or physical bond with the upper coating to enhance interlayer adhesion.

Data support: Experiments show that the use of specific wetting agents can increase interlayer adhesion by 20%-30%, significantly reducing the risk of peeling after recoating.

3. Reduce surface defects (such as shrinkage holes and fish eyes)

Principle: Shrinkage holes are usually caused by incompatibility between the wetting agent and the coating system or uneven surface tension. Wetting agents that do not affect recoating can precisely control the surface tension to avoid the formation of local low surface energy areas, thereby inhibiting the formation of shrinkage holes.

Comparison: Ordinary wetting agents may cause shrinkage rates as high as 5%-10%, while wetting agents with good compatibility can control the shrinkage rate below 1%.

4. Compatible with a variety of coating systems

Application range: This type of wetting agent usually has a wide compatibility and is suitable for a variety of systems such as water-based, solvent-based, UV-curing, and powder coatings. There is no need to change the additives due to the type of coating.

Example: Fluorocarbon wetting agents (such as FC-4430) can be used in both water-based coatings and UV-curing systems to avoid recoating problems caused by mismatched additives.

5. Reduce the cost of formula adjustment

Economic benefits: Traditional wetting agents may need to frequently adjust the formula (such as adding adhesion promoters, changing resin types) due to recoating problems, while wetting agents with good compatibility can reduce such adjustments and reduce R&D and production costs.

Calculation: A company shortened the formula optimization cycle by 30% and reduced material costs by 15% by using specific wetting agents.

6. Improve production efficiency and yield rate

Process optimization: Stable recoating performance can reduce rework rate and improve production efficiency. For example, in coil coating, the use of compatible wetting agents can reduce the coating defect rate from 8% to 2%, significantly improving the yield rate.

Environmental value: Reducing rework means reducing VOCs emissions and energy consumption, which is in line with the trend of green production.

7. Enhance the weather resistance and durability of the coating

Long-term effect: Some wetting agents improve their UV resistance and corrosion resistance by optimizing the microstructure of the coating. For example, fluorocarbon wetting agents can improve the weather resistance of the coating by 1-2 levels and extend the service life.

8. Simplify the complexity of formulation

System integration: A single wetting agent can achieve multiple functions such as wetting, leveling, and anti-cratering at the same time, reducing the types and amounts of additives. For example, some polyether wetting agents can replace traditional leveling agents and anti-cratering agents to simplify formulation design.

9. Adapt to complex substrates and processes

Flexibility: This type of wetting agent has good adaptability to low surface energy substrates (such as plastics and metals) and extreme process conditions (such as high-speed coating and low-temperature curing). For example, in plastic coating, specific wetting agents can keep the coating at -10°C.

10. Compliance with regulations and standards

Compliance: As environmental regulations become stricter, low-VOCs and APEO-free wetting agents have become mainstream. Wetting agents that do not affect recoating usually meet international standards such as RoHS and REACH, helping companies pass environmental certification.

Summary

The wetting agent that does not affect recoating fundamentally solves the pain points of traditional wetting agents in recoating applications through molecular structure design, system compatibility optimization and process adaptability improvement. Its advantages are not only reflected in the direct improvement of coating performance, but also in providing coating companies with more efficient and economical solutions, helping the industry to transform towards green and sustainable development.