The performance of delayed amine catalyst C225 in rapid curing systems
Catalog
- Introduction
- Overview of delayed amine catalyst C225
- Product Parameters
- Application of delayed amine catalyst C225 in rapid curing systems
- Properties of delayed amine catalyst C225
- The advantages and limitations of delayed amine catalyst C225
- Conclusion
1. Introduction
In modern industrial production, rapid curing systems are widely used in coatings, adhesives, composite materials and other fields due to their high efficiency and energy saving characteristics. However, in practical applications, fast curing systems often face problems such as excessive curing speed, short operating time, and uneven curing. To solve these problems, the delayed amine catalyst C225 came into being. This article will introduce in detail the product parameters of the delayed amine catalyst C225, its application in a rapid curing system and its performance, helping readers to fully understand the characteristics and advantages of this catalyst.
2. Overview of Retarded amine Catalyst C225
Retardant amine catalyst C225 is a highly efficient amine catalyst designed specifically for rapid curing systems. It delays the start time of the curing reaction, extends the operating time, while ensuring that the curing reaction is completed within the appropriate time, thereby achieving a uniform and efficient curing effect. C225 is widely used in rapid curing systems such as polyurethane, epoxy resin, acrylate, etc., which significantly improves the processing performance and final performance of the product.
3. Product parameters
The following are the main product parameters of the delayed amine catalyst C225:
| parameter name | parameter value |
|---|---|
| Chemical Name | Retardant amine catalyst C225 |
| Appearance | Colorless to light yellow liquid |
| Density (20°C) | 1.05 g/cm³ |
| Viscosity (25°C) | 50-100 mPa·s |
| Flashpoint | >100°C |
| Solution | Easy soluble in organic solvents |
| Storage temperature | 5-30°C |
| Shelf life | 12 months |
4. Application of delayed amine catalyst C225 in rapid curing systems
4.1 Polyurethane system
In polyurethane systems, the delayed amine catalyst C225 can effectively extend the operating time while ensuring that the curing reaction is completed within an appropriate time. This is especially important for applications that require complex molding or large-area coating. The use of C225 can significantly reduce the generation of bubbles and pinholes and improve the surface quality of the coating.
4.2 Epoxy resin system
In an epoxy resin system, C225 extends the operating time by delaying the start time of the curing reaction, so that the resin system can be evenly distributed in a mold of complex shapes. In addition, C225 can also improve the mechanical properties and chemical resistance after curing.
4.3 Acrylate System
In acrylate systems, the use of C225 can significantly improve the curing speed and curing uniformity. This is of great significance for applications that require rapid curing, such as 3D printing, rapid molding, etc. C225 can also reduce shrinkage and deformation during curing and improve product dimensional stability.
5. Performance of delayed amine catalyst C225
5.1 Extended operating time
The delayed amine catalyst C225 significantly extends the operating time by delaying the start time of the curing reaction. This is especially important for applications that require complex molding or large-area coating. The following is a comparison of the operating time of C225 in different systems:
| System Type | Operation time without C225 | There is a C225 operating time |
|---|---|---|
| Polyurethane System | 5-10 minutes | 20-30 minutes |
| Epoxy resin system | 10-15 minutes | 30-45 minutes |
| Acrylate System | 2-5 minutes | 10-15 minutes |
5.2 Curing speed control
C225 ensures that the curing reaction is completed within an appropriate time by precisely controlling the starting time and reaction speed of the curing reaction. This is of great significance for applications that require rapid curing, such as 3D printing, rapid molding, etc. The following is a comparison of the curing speed of C225 in different systems:
| System Type | Current time without C225 | There is a curing time of C225 |
|---|---|---|
| Polyurethane System | 30-60 minutes | 60-90 minutes |
| Epoxy resin system | 60-120 minutes | 90-150 minutes |
| Acrylate System | 10-20 minutes | 20-30 minutes |
5.3 Improved curing uniformity
C225 delays the start time of the curing reaction, ensuring that the curing reaction is carried out uniformly throughout the system, reducing the generation of bubbles and pinholes, and improving the surface quality of the coating. The following is the comparison of the curing uniformity of C225 in different systems:
| System Type | Currecting uniformity without C225 | Have the curing uniformity of C225 |
|---|---|---|
| Polyurethane System | Ununiform, bubbles | Even, no bubbles |
| Epoxy resin system | Ununiform, pinhole | Even, no pinholes |
| Acrylate System | Ununiform, shrinking | Equal, no shrinkage |
5.4 Improvement of mechanical properties
C225 accurately controls the start time and reaction speed of the curing reaction, ensuring that the curing reaction is completed within an appropriate time, thereby improving the mechanical properties after curing. The following is a comparison of the mechanical properties of C225 in different systems:
| System Type | Tenable strength without C225 | There is tensile strength of C225 |
|---|---|---|
| Polyurethane System | 20 MPa | 25 MPa |
| Epoxy resin system | 50 MPa | 60 MPa |
| Acrylate System | 30 MPa | 35 MPa |
5.5 Enhanced chemical resistance
C225 delays the start time of the curing reaction to ensure that the curing reaction is carried out uniformly throughout the system, thereby improving chemical resistance after curing. The following is a comparison of the chemical resistance of C225 in different systems:
| System Type | No chemical resistance of C225 | It has the chemical resistance of C225 |
|---|---|---|
| Polyurethane System | General | Excellent |
| Epoxy resin system | Good | Excellent |
| Acrylate System | General | Good |
6. Advantages and limitations of delayed amine catalyst C225
6.1 Advantages
- Extended operating time: The C225 significantly extends operating time and is suitable for complex molding and large-area coatings.
- Current Speed Control: C225 accurately controls the starting time and reaction speed of the curing reaction to ensure that the curing reaction is completed within an appropriate time.
- Improved curing uniformity: C225 ensures that the curing reaction is carried out uniformly throughout the system and reduces the generation of bubbles and pinholes.
- Mechanical performance improvement: C225 improves the mechanical properties after curing, such as tensile strength, bending strength, etc.
- Enhanced chemical resistance: C225 improves chemical resistance after curing and is suitable for applications in harsh environments.
6.2 Limitations
- High cost: The production cost of C225 is higher, which may increase the cost of the final product.
- Strict storage conditions: C225 needs to be stored at a temperature of 5-30°C, with a shelf life of 12 months, and is relatively strict in storage conditions.
- Scope of application is limited: C225 is mainly suitable for rapid curing systems such as polyurethane, epoxy resin, acrylate, etc., and its applicability to other systems needs further research.
7. Conclusion
The delayed amine catalyst C225 performs well in a fast curing system. It significantly improves the processing performance and final performance of the product by extending operating time, controlling curing speed, improving curing uniformity, enhancing mechanical properties and chemical resistance. Although C225 has limitations such as high cost and strict storage conditions, its application prospects in rapid curing systems are broad. With the continuous advancement of technology, C225 is expected to be widely used in more fields, bringing greater convenience and benefits to industrial production.
Through the introduction of this article, I believe that readers have a deeper understanding of the delayed amine catalyst C225. In practical applications, choosing the right catalyst is crucial to improve product quality and production efficiency. It is hoped that this article can provide a valuable reference for readers when selecting and using delayed amine catalyst C225.
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