Rapid curing characteristics of high-activity reactive catalyst ZF-10 in environmentally friendly coatings
Introduction
With the increasing awareness of environmental protection and the increasingly strict environmental protection regulations, environmentally friendly coatings are becoming more and more widely used in the fields of construction, automobiles, furniture, etc. Environmentally friendly coatings not only require low VOC (volatile organic compounds) emissions, but also require excellent performance and rapid curing characteristics. As a new catalyst, ZF-10, a highly active reactive catalyst, has been widely used in environmentally friendly coatings due to its efficient catalytic properties and environmentally friendly characteristics. This article will introduce in detail the characteristics of ZF-10 catalyst, its application in environmentally friendly coatings and its rapid curing characteristics.
1. Overview of ZF-10 Catalyst
1.1 Product Introduction
ZF-10 catalyst is a highly reactive reactive catalyst, mainly used to promote curing reactions in environmentally friendly coatings. It can quickly induce curing reactions at lower temperatures, significantly shortening the curing time of the paint while maintaining the excellent performance of the paint.
1.2 Product parameters
| parameter name | parameter value |
|---|---|
| Appearance | Colorless transparent liquid |
| Density (g/cm³) | 1.05-1.10 |
| Viscosity (mPa·s) | 50-100 |
| Active ingredient content (%) | 95-98 |
| Storage temperature (℃) | 5-30 |
| Shelf life (month) | 12 |
1.3 Product Advantages
- High-efficiency Catalysis: ZF-10 catalyst can quickly induce curing reactions at lower temperatures, significantly shortening the curing time.
- Environmental Characteristics: Low VOC emissions, comply with environmental protection regulations.
- Wide Applicability: Suitable for a variety of environmentally friendly coating systems, such as water-based coatings, UV curing coatings, etc.
- Good stability: Good storage stability, not easy to decompose or fail.
2. Application of ZF-10 catalyst in environmentally friendly coatings
2.1 Application in water-based coatings
Water-based coatings have become one of the mainstream products in the coating industry due to their low VOC emissions and environmentally friendly properties. The application of ZF-10 catalyst in aqueous coatings can significantly improve the curing speed and performance of the coating.
2.1.1 Application Effect
| Performance metrics | ZF-10 not added | Add ZF-10 |
|---|---|---|
| Current time (min) | 60 | 20 |
| Hardness (H) | 2H | 3H |
| Adhesion (level) | 1 | 0 |
| Water Resistance (h) | 24 | 48 |
2.1.2 Application Cases
After a water-based wood coating manufacturer added ZF-10 catalyst during the production process, the curing time of the coating was shortened from 60 minutes to 20 minutes, the hardness and adhesion of the coating were significantly improved, and the water resistance was also increased from 24 hours to 48 hours.
2.2 Application in UV curing coatings
UV curing coatings are widely used in electronics, printing and other fields due to their rapid curing and environmentally friendly properties. The application of ZF-10 catalyst in UV curing coatings can further improve the curing speed and performance of the coating.
2.2.1 Application effect
| Performance metrics | ZF-10 not added | Add ZF-10 |
|---|---|---|
| Current time (s) | 10 | 5 |
| Hardness (H) | 4H | 5H |
| Adhesion (level) | 1 | 0 |
| Chemical resistance (h) | 24 | 48 |
2.2.2 Application Cases
After a UV curing coating manufacturer adds ZF-10 catalyst during the production process, the curing time of the coating is shortened from 10 seconds to 5 seconds, the hardness and adhesion of the coating are significantly improved, and the chemical resistance is also increased from 24 hours to 48 hours.
3. Rapid curing characteristics of ZF-10 catalyst
3.1 Curing mechanism
ZF-10 catalyst accelerates the curing process of the coating by promoting crosslinking reactions in the coating. Its curing mechanism mainly includes the following steps:
- Initiation stage: ZF-10 catalyst rapidly initiates cross-linking reactions in the coating at lower temperatures.
- Growth Stage: The crosslinking reaction proceeds rapidly to form a three-dimensional network structure.
- Termination phase: The cross-linking reaction is completed and the coating is cured.
3.2 Factors influencing curing speed
| Influencing Factors | The degree of impact | Instructions |
|---|---|---|
| Temperature | High | The higher the temperature, the faster the curing speed |
| Catalytic Dosage | in | Adjust amount can increase the curing speed |
| Coating Formula | in | Formula optimization can improve curing speed |
| Ambient humidity | Low | Humidity has little impact on curing speed |
3.3 Optimization of curing speed
By optimizing the coating formulation and process conditions, the curing speed of ZF-10 catalyst can be further improved. Specific optimization measures include:
- Increase the amount of catalyst: Increasing the amount of ZF-10 catalyst in an appropriate amount can significantly increase the curing speed.
- Increase the curing temperature: Appropriately increase the curing temperature to accelerate the curing reaction.
- Optimize coating formula: By adjusting the coating formula, such as increasing the amount of crosslinking agent, the curing speed can be increased.
4. Application prospects of ZF-10 catalyst
4.1 Market demand
With the increasing strictness of environmental protection regulations and the increasing awareness of consumers' environmental protection, the market demand for environmentally friendly coatings continues to grow. Due to its efficient catalytic properties and environmentally friendly characteristics, ZF-10 catalyst has broad application prospects in environmentally friendly coatings.
4.2 Technology development trends
In the future, the technological development trends of ZF-10 catalysts mainly include:
- Efficiency: Further improve catalytic efficiency and shorten curing time.
- Multifunctionalization: Develop catalysts with multiple functions, such as antibacterial and anti-mold.
- Environmental protection: further reduce VOC emissions and improve environmental protection performance.
4.3 Application field expansion
ZF-10 catalyst is not only suitable for water-based coatings and UV curing coatings, but can also be expanded to other environmentally friendly coating fields, such as powder coatings, high-solid sub-coatings, etc.
5. Conclusion
The application of high-reactive reactive catalyst ZF-10 in environmentally friendly coatings can significantly improve the curing speed and performance of the coating. By optimizing the coating formulation and process conditions, the curing speed of ZF-10 catalyst can be further improved. With the increasing strictness of environmental protection regulations and the increasing awareness of consumers' environmental protection, ZF-10 catalyst has broad application prospects in environmentally friendly coatings. In the future, the technological development trend of ZF-10 catalysts will develop towards efficient, multifunctional and environmental protection, and the application areas will be further expanded.
Appendix
Appendix 1: Guidelines for safe use of ZF-10 catalysts
| Project | Instructions |
|---|---|
| Storage Conditions | Cool, dry, ventilated |
| Using temperature | 5-30℃ |
| Protective Measures | Wear protective gloves and glasses |
| Waste Disposal | Treat according to local regulations |
Appendix 2: FAQs about ZF-10 Catalyst
| Problem | Answer |
|---|---|
| Is the ZF-10 catalyst flammable? | Not flammable, but stay away from the fire source |
| Is ZF-10 catalyst harmful to the human body? | Low toxic, but direct contact should be avoided |
| Is the ZF-10 catalyst suitable for all coatings? | Supplemented in a variety of environmentally friendly coatings |
Through the detailed introduction of this article, I believe that readers have a deeper understanding of the rapid curing characteristics of the highly active reactive catalyst ZF-10 in environmentally friendly coatings. The application of ZF-10 catalyst can not only improve the performance of the coating, but also meet the requirements of environmental protection regulations and have broad market prospects.
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