Retardant amine catalyst A400: Meet the future market demand for polyurethane
Introduction
With the rapid development of the global economy and the continuous advancement of science and technology, polyurethane materials are becoming more and more widely used in various fields. From construction, automobile, furniture to electronics, medical, packaging and other industries, polyurethane materials play an important role. However, with the increasing market demand, the performance requirements of polyurethane materials are also getting higher and higher. To meet these needs, the delayed amine catalyst A400 was born. This article will introduce the product parameters, application areas, market prospects and future development trends of delayed amine catalyst A400 in detail, helping readers to fully understand this innovative product.
1. Overview of Retarded Amine Catalyst A400
1.1 What is retarded amine catalyst A400?
The delay amine catalyst A400 is a highly efficient and environmentally friendly polyurethane catalyst, mainly used in the preparation of polyurethane foam, elastomer, coating, adhesive and other materials. Compared with traditional amine catalysts, A400 has the characteristics of delayed reactions and can provide longer operating time during the polyurethane reaction while ensuring stable performance of the final product.
1.2 Advantages of Retarded Amine Catalyst A400
- Delayed reaction: A400 can provide a long operating time at the beginning of the polyurethane reaction, making it easier to form and process complex shapes.
- High-efficiency Catalysis: In the late stage of the reaction, the A400 can quickly accelerate the reaction to ensure the product cures quickly.
- Environmental Performance: A400 does not contain heavy metals and harmful substances, and meets environmental protection requirements.
- Wide Applicability: Suitable for a variety of polyurethane materials, including soft bubbles, hard bubbles, elastomers, etc.
2. Product parameters of delayed amine catalyst A400
2.1 Physical and chemical properties
| parameter name | Value/Description |
|---|---|
| Appearance | Colorless to light yellow liquid |
| Density (20?) | 0.95-1.05 g/cm³ |
| Viscosity (25?) | 50-100 mPa·s |
| Flashpoint | >100? |
| Solution | Easy soluble in organic solvents such as water, alcohols, ketones |
| Storage Stability | Can be stored in a cool and dry place for a long time |
2.2 Catalytic properties
| parameter name | Value/Description |
|---|---|
| Reaction delay time | 5-15 minutes |
| Reaction acceleration time | 1-3 minutes |
| Catalytic Efficiency | High, suitable for a variety of polyurethane systems |
| Applicable temperature range | 20-80? |
2.3 Safety and Environmental Protection
| parameter name | Value/Description |
|---|---|
| Toxicity | Low toxicity, meet environmental protection standards |
| Volatility | Low, reduce the harm to operators |
| Biodegradability | Biodegradable, environmentally friendly |
III. Application fields of delayed amine catalyst A400
3.1 Polyurethane foam
Polyurethane foam is one of the main application areas of A400. The delayed reaction characteristics of A400 enable better control of the cell structure of the foam during the molding process, thereby improving the uniformity and mechanical properties of the foam.
3.1.1 Soft foam
Soft foam is widely used in furniture, mattresses, car seats and other fields. The A400 provides longer operating times, facilitates the formation of complex shapes while ensuring elasticity and comfort of foam.
3.1.2 Rigid foam
Rough foam is mainly used in building insulation, cold chain transportation and other fields. The efficient catalytic performance of the A400 can ensure rapid curing of foam and improve production efficiency.
3.2 Polyurethane elastomer
Polyurethane elastomers have excellent wear resistance, elasticity and tear resistance, and are widely used in tires, seals, soles and other fields.. The delayed reaction characteristics of A400 enable the elastomer to better control the crosslink density during the molding process, thereby improving the mechanical properties of the product.
3.3 Polyurethane coating
Polyurethane coatings have excellent weather resistance, wear resistance and decorative properties, and are widely used in construction, automobile, furniture and other fields. The efficient catalytic performance of the A400 can ensure rapid curing of the coating and improve construction efficiency.
3.4 Polyurethane Adhesive
Polyurethane adhesives have excellent adhesive properties and weather resistance, and are widely used in construction, automobiles, electronics and other fields. The delayed reaction characteristics of A400 enable better control of curing time during construction, thereby improving bonding strength.
IV. Market prospects of delayed amine catalyst A400
4.1 Overview of the global polyurethane market
According to market research data, the global polyurethane market size has continued to grow in the past few years and is expected to maintain a high growth rate in the next few years. With the improvement of environmental protection requirements and the continuous advancement of technology, efficient and environmentally friendly polyurethane catalysts will become the mainstream in the market.
4.2 Market demand for delayed amine catalyst A400
As polyurethane materials are increasingly used in various fields, the market demand for efficient and environmentally friendly catalysts is increasing. With its excellent performance and environmentally friendly characteristics, A400 will become an important product in the future polyurethane catalyst market.
4.3 Competition Analysis
At present, the global polyurethane catalyst market is fiercely competitive, and the major manufacturers include BASF, Huntsman, Dow Chemical, etc. With its unique delayed reaction characteristics and efficient catalytic properties, the A400 will occupy an advantageous position in the competition.
V. Future development trends of delayed amine catalyst A400
5.1 Technological Innovation
With the continuous advancement of science and technology, technological innovation of polyurethane catalysts will become an important direction for future development. The A400 will continue to optimize its catalytic performance, improve reaction efficiency and environmental protection performance, and meet the market’s demand for high-performance catalysts.
5.2 Environmental Protection Requirements
As the continuous increase in global environmental protection requirements, environmentally friendly catalysts will become the mainstream in the market. The A400 will continue to optimize its environmental performance, reduce environmental pollution, and meet the market’s demand for environmentally friendly catalysts.
5.3 Application Expansion
As the continuous expansion of the application of polyurethane materials in various fields, the application field of A400 will also continue to expand. In the future, the A400 will be used in more fields, such as electronics, medical care, packaging, etc.
VI. Conclusion
Dependant amine catalyst A400 will become an important product in the future polyurethane catalyst market with its excellent delay reaction characteristics and efficient catalytic properties. With the global ammoniaWith the continuous growth of the ester market and the continuous improvement of environmental protection requirements, the A400 will continue to optimize its technological innovation, environmental performance and application expansion to meet the market’s demand for high-performance and environmentally friendly catalysts. In the future, A400 will be used in more fields, providing strong support for the development of polyurethane materials.
Appendix: FAQs about delayed amine catalyst A400
Q1: What are the storage conditions for the retardant amine catalyst A400?
A1: A400 should be stored in a cool and dry place to avoid direct sunlight and high temperature environments. It is recommended that the storage temperature be between 20-30?.
Q2: What is the use of retardant amine catalyst A400?
A2: A400 can be added directly to the polyurethane system, and the recommended amount is 0.1-0.5% (based on the total system weight). The specific amount of addition can be adjusted according to actual application requirements.
Q3: What is the environmentally friendly performance of the delayed amine catalyst A400?
A3: A400 does not contain heavy metals and harmful substances, and meets environmental protection requirements. Its low toxicity and low volatility reduce the harm to the operator, while being biodegradable and environmentally friendly.
Q4: What is the applicable temperature range of the retardant amine catalyst A400?
A4: The applicable temperature range of A400 is 20-80?, and the specific temperature can be adjusted according to actual application requirements.
Q5: What is the reaction delay time and acceleration time of delayed amine catalyst A400?
A5: The reaction delay time of A400 is 5-15 minutes, and the reaction acceleration time is 1-3 minutes. The specific time can be adjusted according to actual application requirements.
Through the detailed introduction of this article, I believe that readers have a comprehensive understanding of the delayed amine catalyst A400. With its excellent performance and environmentally friendly characteristics, A400 will become an important product in the future polyurethane catalyst market, meeting the market’s demand for high-performance and environmentally friendly catalysts.
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