The unique application of DMDEE bimorpholine diethyl ether in textile coatings: Enhanced softness and wear resistance
Introduction
In the modern textile industry, coated fabrics are highly favored for their versatility and high performance. Coated fabrics can not only provide waterproof, stain-proof, UV-proof properties, but also enhance the softness and wear resistance of textiles. Among these coating materials, DMDEE (bimorpholine diethyl ether) is a highly efficient catalyst and additive, and has gradually become an important component in the field of textile coatings. This article will explore the unique application of DMDEE in textile coatings in depth, analyze how it enhances the softness and wear resistance of textiles, and provide detailed product parameters and application examples.
1. Basic characteristics of DMDEE
1.1 Chemical structure and properties
DMDEE (dimorpholine diethyl ether) is an organic compound with the chemical formula C12H24N2O2. It is a colorless to light yellow liquid with low viscosity and good solubility. The main characteristics of DMDEE include:
- Low Volatility: DMDEE is less volatile at room temperature and is suitable for use at high temperature or during long processing.
- High-efficiency Catalytic Effect: As a highly efficient catalyst for polyurethane reaction, DMDEE can significantly accelerate the reaction speed and improve production efficiency.
- Good compatibility: DMDEE has good compatibility with a variety of resins, solvents and additives, and can be widely used in various coating formulations.
1.2 Product parameters
| parameter name | Value/Description |
|---|---|
| Chemical formula | C12H24N2O2 |
| Molecular Weight | 228.33 g/mol |
| Appearance | Colorless to light yellow liquid |
| Density | 0.98 g/cm³ |
| Boiling point | 250°C |
| Flashpoint | 110°C |
| Solution | Easy soluble in organic solvents, slightly soluble in water |
| Volatility | Low |
| Catalytic Efficiency | Efficient |
2. Application of DMDEE in textile coatings
2.1 Enhance softness
The softness of textiles is one of the important considerations when consumers choose products. The application of DMDEE in textile coatings can significantly improve the softness of textiles, which are specifically reflected in the following aspects:
2.1.1 Improve coating elasticity
As a catalyst for polyurethane reaction, DMDEE can promote the formation and cross-linking of polyurethane molecular chains, thereby enhancing the elasticity of the coating. A well-elastic coating can better adapt to the deformation of textiles, making the fabric softer and more comfortable during wear.
2.1.2 Reduce coating hardness
The addition of DMDEE can adjust the hardness of the coating to make it softer. By adjusting the amount of DMDEE added, the hardness of the coating can be precisely controlled to meet the softness requirements of different textiles.
2.1.3 Improve coating adhesion
DMDEE can enhance adhesion between the coating and the textile substrate, making the coating more evenly distributed on the textile surface. This not only improves the softness of the coating, but also prevents peeling or cracking of the coating during use.
2.2 Enhanced wear resistance
Abrasion resistance is one of the important indicators to measure the service life of textiles. The application of DMDEE in textile coatings can significantly improve the wear resistance of textiles, which are specifically reflected in the following aspects:
2.2.1 Improve coating strength
DMDEE can promote cross-linking of polyurethane molecular chains and form a denser coating structure. This structure can effectively resist external friction and wear, thereby improving the wear resistance of textiles.
2.2.2 Enhance the toughness of the coating
The addition of DMDEE can improve the toughness of the coating, making it less likely to break or break when subjected to external forces. This toughness not only extends the service life of the textile, but also maintains the appearance of the textile.
2.2.3 Improve the fatigue resistance of the coating
DMDEE can enhance the fatigue resistance of the coating, so that it can maintain good performance after multiple frictions or stretches. This fatigue resistance is particularly important for frequently used textiles (such as sportswear, work clothes, etc.).
III. Specific application examples of DMDEE in textile coatings
3.1 Sportswear Coating
Sports clothing needs to have good flexibility and wear resistance to cope with friction and stretching caused by high-strength exercise. DMDEE in sportswearThe application in coating can significantly improve the comfort and durability of sportswear.
3.1.1 Application Effect
- Softness: The addition of DMDEE makes the sportswear coating softer, fits the body more well when worn, and reduces the feeling of restraint during exercise.
- Abrasion Resistance: The DMDEE enhanced coating can effectively resist friction during exercise and extend the service life of sportswear.
3.1.2 Application parameters
| parameter name | Value/Description |
|---|---|
| DMDEE addition amount | 0.5-1.5% |
| Coating thickness | 10-20 microns |
| Abrasion resistance test | No obvious wear after 5000 frictions |
| Softness Test | Soft feel and good elasticity |
3.2 Outdoor clothing coating
Outdoor clothing needs to have the characteristics of waterproof, stain-proof and wear-resistant to cope with complex and changeable outdoor environments. The application of DMDEE in outdoor clothing coating can significantly improve the performance of outdoor clothing.
3.2.1 Application Effect
- Waterproof: The DMDEE enhanced coating can form a dense waterproof layer, effectively preventing moisture from penetration.
- Abrasion Resistance: DMDEE enhanced coating can resist friction and wear in outdoor environments and extend the service life of outdoor clothing.
3.2.2 Application parameters
| parameter name | Value/Description |
|---|---|
| DMDEE addition amount | 1.0-2.0% |
| Coating thickness | 20-30 microns |
| Waterproof Test | The water pressure test reaches 5000mm water column |
| Abrasion resistance test | No obvious wear after 10,000 frictions |
3.3 Home Textile Coating
Home textiles (such as sofa covers, curtains, etc.) need to have good flexibility and wear resistance to cope with friction and cleaning in daily use. The application of DMDEE in home textile coating can significantly improve the comfort and durability of home textiles.
3.3.1 Application Effect
- Softness: The addition of DMDEE makes the home textile coating softer and more comfortable to touch, improving the comfort of the home environment.
- Abrasion Resistance: The DMDEE enhanced coating can resist friction during daily use and extend the service life of home textiles.
3.3.2 Application parameters
| parameter name | Value/Description |
|---|---|
| DMDEE addition amount | 0.8-1.5% |
| Coating thickness | 15-25 microns |
| Abrasion resistance test | No obvious wear after 3000 frictions |
| Softness Test | Soft feel and good elasticity |
IV. Advantages and challenges of DMDEE in textile coating
4.1 Advantages
- High-efficiency Catalysis: As a high-efficiency catalyst, DMDEE can significantly accelerate the polyurethane reaction and improve production efficiency.
- Multifunctionality: DMDEE can not only enhance the softness and wear resistance of the coating, but also improve the waterproofness, stain resistance and other properties of the coating.
- Environmentality: DMDEE has low volatility and low toxicity, meets environmental protection requirements, and is suitable for use in environmentally friendly coating formulations.
4.2 Challenge
- High Cost: DMDEE is relatively expensive and may increase the cost of coating formulations.
- Add volume control: The amount of DMDEE needs to be added accurately,Too much or too little can affect the performance of the coating.
- Compatibility Issues: There may be problems with the compatibility of DMDEE with certain resins or additives and formula optimization is required.
5. Future development trends
With the continuous development of the textile industry, DMDEE has broad application prospects in textile coatings. In the future, the application of DMDEE will develop in the following directions:
- High-performance coating: By optimizing the addition amount and formula of DMDEE, a higher-performance textile coating is developed to meet the needs of different application scenarios.
- Environmental Coatings: With the increase of environmental protection requirements, DMDEE will play a greater role in environmentally friendly coating formulations and promote the sustainable development of the textile industry.
- Intelligent Coating: Combined with intelligent material technology, an intelligent textile coating with self-healing and self-cleaning functions has been developed to enhance the added value of textiles.
Conclusion
The unique application of DMDEE bimorpholine diethyl ether in textile coatings can significantly enhance the softness and wear resistance of textiles. By optimizing the amount and formula of DMDEE, high-performance, environmentally friendly textile coatings can be developed to meet the needs of different application scenarios. In the future, with the continuous development of the textile industry, the application prospects of DMDEE will be broader, providing more possibilities for improving the performance and function expansion of textiles.
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