The leader of China special amines-

Articles posted by: admin

Trimerization catalyst TAP: Future-oriented polyurethane technology innovation

admin 3月 11th, 2025 News

Trimerization catalyst TAP: Future-oriented polyurethane technology innovation

Introduction

Polyurethane (PU) is a polymer material widely used in the fields of construction, automobile, furniture, shoe materials, packaging, etc. Its excellent physical properties and chemical stability make it one of the indispensable materials in modern industry. However, with the improvement of environmental protection requirements and technological advancement, traditional polyurethane production technology faces many challenges. Triazine-based Amine Polyol Catalyst, as a new catalyst, is leading the innovation of polyurethane technology and promoting the industry to develop in a more environmentally friendly and efficient direction.

1. Basic concepts of trimerization catalyst TAP

1.1 What is trimerization catalyst TAP?

Trimerization catalyst TAP is an amine catalyst based on the triazine structure, which is mainly used in the synthesis of polyurethanes. It accelerates the reaction between isocyanate and polyol, improves the production efficiency of polyurethane, while reducing the occurrence of side reactions. TAP catalysts are highly efficient, environmentally friendly, and low toxicity, and are an ideal substitute for traditional catalysts.

1.2 Working principle of TAP catalyst

TAP catalysts provide efficient catalytic activity during polyurethane synthesis through their unique molecular structure. Its working principle mainly includes the following aspects:

Accelerating the reaction rate: TAP catalyst can significantly increase the reaction rate between isocyanate and polyol and shorten the production cycle.
Control reaction selectivity: TAP catalysts can effectively control the selectivity of reactions, reduce the occurrence of side reactions, and improve product quality.
Reduce reaction temperature: TAP catalysts can achieve efficient catalysis at lower temperatures and reduce energy consumption.

Advantages of TAP, two and three-merization catalysts

2.1 Efficiency

TAP catalyst has extremely high catalytic activity and can complete the synthesis of polyurethane in a short time. Compared with traditional catalysts, TAP catalysts can shorten the reaction time by more than 30%, significantly improving production efficiency.

2.2 Environmental protection

The TAP catalyst produces very few harmful substances during production and use, which meets the environmental protection requirements of modern industry. Its low toxicity and low volatility make it have significant advantages in the production of environmentally friendly polyurethanes.

2.3 Economy

Although the initial cost of TAP catalysts is high, their efficiency and long service life make them last for a long timeThere are significant economic advantages in this. By reducing reaction time and energy consumption, TAP catalysts can significantly reduce production costs.

2.4 Multifunctionality

TAP catalysts are not only suitable for traditional polyurethane synthesis, but also for the development of a variety of new polyurethane materials, such as aqueous polyurethane, bio-based polyurethane, etc. Its versatility makes it have broad application prospects in the future development of polyurethane technology.

III. Product parameters of trimerization catalyst TAP

3.1 Physical Properties

parameter name	Value Range	Unit
Appearance	Colorless to light yellow liquid	–
Density	1.05-1.15	g/cm³
Viscosity	50-100	mPa·s
Flashpoint	>100	?
Boiling point	>200	?

3.2 Chemical Properties

parameter name	Value Range	Unit
pH value	7.0-8.5	–
Solution	Easy soluble in water and alcohols	–
Stability	Stable	–
Toxicity	Low toxic	–

3.3 Catalytic properties

parameter name	Value Range	Unit
Catalytic Activity	High	–
Reaction time	Short by more than 30%	–
Reaction temperature	Reduce by 10-20?	?
Selective	High	–

IV. Application fields of trimerization catalyst TAP

4.1 Construction Industry

In the construction industry, polyurethane materials are widely used in insulation materials, waterproof coatings, sealants, etc. The high efficiency and environmental protection of TAP catalysts make it have significant advantages in the production of polyurethane materials for construction.

4.2 Automotive Industry

The automotive industry has extremely high requirements for the lightweight and environmental protection of materials. TAP catalysts can be used to produce high-performance automotive interior materials, seat foam, seals, etc., to meet the strict requirements of the automotive industry for material performance.

4.3 Furniture Industry

The furniture industry’s demand for polyurethane materials is mainly concentrated in soft foam, rigid foam, coatings, etc. The efficiency and versatility of TAP catalysts make it widely used in the production of polyurethane materials for furniture.

4.4 Shoe Materials Industry

The shoe material industry has high requirements for the elasticity, wear resistance, and comfort of polyurethane materials. TAP catalysts can be used to produce high-performance sole materials, insoles, etc., to meet the diversified demands of the shoe material industry for material performance.

4.5 Packaging Industry

The demand for polyurethane materials in the packaging industry is mainly concentrated in buffer materials, sealing materials, etc. The environmental protection and economicality of TAP catalysts make it have significant advantages in the production of polyurethane materials for packaging.

V. Future development of trimerization catalyst TAP

5.1 Technological Innovation

With the advancement of science and technology, the technological innovation of TAP catalysts will continue to advance. In the future, TAP catalysts will be more efficient, environmentally friendly and multifunctional, meeting the diversified needs of polyurethane materials in different industries.

5.2 Market prospects

With the improvement of environmental protection requirements and technological advancement, the market prospects of TAP catalysts are broad. It is expected that the market size of TAP catalysts will continue to expand in the next few years and become the mainstream catalyst in the polyurethane industry.

5.3 Sustainable Development

The environmental protection and economicality of TAP catalysts make itPlays an important role in sustainable development. In the future, TAP catalysts will play an important role in promoting the development of the polyurethane industry towards green and low-carbon directions.

VI. Conclusion

Trimerization catalyst TAP, as a new catalyst, is leading the innovation of polyurethane technology. Its efficiency, environmental protection, economy and versatility make it widely used in many industries. With the advancement of technology and the development of the market, TAP catalysts will play an increasingly important role in the future development of polyurethane technology, and promote the industry to develop in a more environmentally friendly and efficient direction.

Appendix: Comparison between TAP catalyst and traditional catalyst

parameter name	TAP catalyst	Traditional catalyst
Catalytic Activity	High	in
Reaction time	Short by more than 30%	Normal
Reaction temperature	Reduce by 10-20?	Normal
Selective	High	in
Environmental	High	Low
Economic	High	in

From the above comparison, it can be seen that TAP catalysts have significant advantages in many aspects and are an ideal substitute for traditional catalysts. With the continuous advancement of technology, TAP catalysts will play an increasingly important role in the future development of polyurethane technology.

Jeffcat TAP amine catalysts: Opening a new era from the perspective of green chemistry

admin 3月 11th, 2025 News

Jeffcat TAP amine catalysts: Opening a new era from the perspective of green chemistry

Introduction

In the context of increasingly severe global environmental problems today, green chemistry, as a sustainable chemical concept, has gradually become the mainstream direction of the chemical industry. The core of green chemistry is to reduce or eliminate the negative impact of chemicals on the environment and human health during production, use and waste. Against this background, Jeffcat TAP amine catalysts emerged and became an important force in promoting the development of green chemistry.

Jeffcat TAP amine catalyst is a highly efficient and environmentally friendly catalyst, widely used in polyurethane foams, coatings, adhesives and other fields. Its unique chemical structure and excellent catalytic properties make it have broad application prospects in the field of green chemistry. This article will introduce in detail the characteristics, applications, product parameters and their important role in green chemistry of Jeffcat TAP amine catalysts.

1. Characteristics of Jeffcat TAP amine catalysts

1.1 Chemical structure

Jeffcat TAP amine catalyst is an organic compound based on the tertiary amine structure. Its molecular structure contains multiple active sites, which can effectively promote the occurrence of chemical reactions. Its chemical structure is as follows:

Chemical structure	Molecular Formula	Molecular Weight
R1-N-R2	CxHyNz	Mw

1.2 Catalytic properties

Jeffcat TAP amine catalysts have the following excellent catalytic properties:

High efficiency: It can achieve efficient catalysis at lower temperatures and pressures, significantly improving the reaction rate.
Selectivity: It is highly selective for a specific reaction and reduces the generation of by-products.
Stability: Stabilizes in a wide range of pH and temperatures, suitable for a variety of reaction conditions.

1.3 Environmental protection characteristics

Jeffcat TAP amine catalysts fully consider environmental protection factors during the design and production process, and have the following environmental protection characteristics:

Low toxicity: It has a very small impact on the human body and the environment, and meets the requirements of green chemistry.
Degradability: It can degrade rapidly in the natural environment and reduce the long-term impact on the ecosystem.
Renewable: The raw materials are widely sourced, and some raw materials can come from renewable resources to reduce their dependence on fossil fuels.

2. Application of Jeffcat TAP amine catalysts

2.1 Polyurethane foam

Polyurethane foam is a polymer material widely used in construction, furniture, automobiles and other fields. Jeffcat TAP amine catalysts play a key role in the production of polyurethane foams, and their specific applications are as follows:

Application Fields	Function	Advantages
Building Insulation	Promote foaming reaction	Improve the insulation performance of foam
Furniture Manufacturing	Control foam density	Enhance the comfort and durability of furniture
Car interior	Optimize foam structure	Improve the comfort and safety of the car interior

2.2 Paint

Coating is an indispensable material in the fields of construction, automobiles, ships, etc. The application of Jeffcat TAP amine catalysts in coatings is mainly reflected in the following aspects:

Application Fields	Function	Advantages
Building Paints	Promote the curing reaction	Improve the adhesion and durability of the paint
Auto paint	Control drying time	Enhance the wear and corrosion resistance of the coating
Ship Coating	Optimize coating structure	Enhance the antifouling and aging properties of the paint

2.3 Adhesive

Odders have wide applications in packaging, construction, electronics and other fields. The application of Jeffcat TAP amine catalysts in adhesives is mainly reflected in the following aspects:

Application Fields	Function	Advantages
Packaging Materials	Promote adhesion reaction	Improve the adhesive strength and water resistance of the adhesive
Building Materials	Control curing time	Enhance the weather resistance and durability of the adhesive
Electronic Materials	Optimize the bonding structure	Improve the conductivity and heat resistance of the adhesive

3. Product parameters of Jeffcat TAP amine catalysts

To understand the performance of Jeffcat TAP amine catalysts more intuitively, the following are listed as follows:

parameter name	parameter value	Unit
Appearance	Colorless to light yellow liquid	–
Density	0.95-1.05	g/cm³
Viscosity	10-20	mPa·s
Flashpoint	>100	?
Boiling point	200-250	?
Solution	Easy soluble in water and organic solvents	–
pH value	8-10	–

4. The important role of Jeffcat TAP amine catalysts in green chemistry

4.1 Reduce environmental pollution

Jeffcat TAP amine catalysts produce very few harmful substances during production and use, which can effectively reduce environmental pollution. Its low toxicity and degradability make it an ideal choice for green chemistry.

4.2 Improve resource utilization

The efficiency and selectivity of Jeffcat TAP amine catalysts can significantly improve the conversion and yield of chemical reactions, reduce waste of raw materials, and improve resource utilization.

4.3 Promote sustainable development

The renewability and environmentally friendly properties of Jeffcat TAP amine catalysts make it play an important role in promoting the sustainable development of the chemical industry. By promoting and applying Jeffcat TAP amine catalysts, the green transformation of the chemical industry can be achieved and contribute to global environmental protection and sustainable development.

5. Future Outlook

As the concept of green chemistry is deeply rooted in people’s hearts, the application prospects of Jeffcat TAP amine catalysts will be broader. In the future, with the continuous advancement of technology and the continuous improvement of environmental protection requirements, Jeffcat TAP amine catalysts will be used in more fields, injecting new vitality into the development of green chemistry.

5.1 Technological Innovation

In the future, the technological innovation of Jeffcat TAP amine catalysts will mainly focus on the following aspects:

Development of new catalysts: Through molecular design and synthesis technology, a new catalyst that is more efficient and environmentally friendly is developed.
Research on catalytic mechanism: In-depth study of the mechanism of catalytic reactions and optimize the performance and application range of catalysts.
Green Production Technology: Develop more environmentally friendly production processes to reduce environmental pollution in the catalyst production process.

5.2 Application Expansion

The application fields of Jeffcat TAP amine catalysts will continue to expand, and may be widely used in the following fields in the future:

New Energy Materials: Application in new energy materials such as solar cells and fuel cells.
Biomedicine: Application in drug synthesis, biomaterials and other fields.
Environmental Protection: Application in environmental protection fields such as wastewater treatment and waste gas purification.

5.3 Policy Support

As global environmental awareness increases, governments will increase policy support for green chemistry. In the future, Jeffcat TAP amine catalysts will be widely used and promoted with policy support.

Conclusion

Jeffcat TAP amine catalysts are important in the field of green chemistry as an efficient and environmentally friendly catalyst.value of application. Its unique chemical structure and excellent catalytic properties have made it widely used in polyurethane foams, coatings, adhesives and other fields. By reducing environmental pollution, improving resource utilization and promoting sustainable development, Jeffcat TAP amine catalysts have made important contributions to the development of green chemistry. In the future, with the continuous advancement of technology and the continuous improvement of environmental protection requirements, Jeffcat TAP amine catalysts will be used in more fields, injecting new vitality into the development of green chemistry.

Appendix: Jeffcat TAP amine catalyst product parameter table

parameter name	parameter value	Unit
Appearance	Colorless to light yellow liquid	–
Density	0.95-1.05	g/cm³
Viscosity	10-20	mPa·s
Flashpoint	>100	?
Boiling point	200-250	?
Solution	Easy soluble in water and organic solvents	–
pH value	8-10	–

Through the introduction of this article, I believe that readers have a deeper understanding of Jeffcat TAP amine catalysts. As an efficient and environmentally friendly catalyst, Jeffcat TAP amine catalysts have broad application prospects in the field of green chemistry. In the future, with the continuous advancement of technology and the continuous improvement of environmental protection requirements, Jeffcat TAP amine catalysts will be used in more fields, injecting new vitality into the development of green chemistry.

The versatility of trimerization catalyst TAP in the polyurethane industry

admin 3月 11th, 2025 News

The versatility of trimerization catalyst TAP in the polyurethane industry

Introduction

Polyurethane (PU) is a polymer material widely used in the fields of construction, automobile, furniture, shoe materials, packaging, etc. Its excellent physical properties and chemical stability make it one of the indispensable materials in modern industry. However, the selection and use of catalysts are crucial in the production process of polyurethane. Triamine-based Amine Polyol, a trimerization catalyst, has shown outstanding versatility in the polyurethane industry in recent years. This article will introduce the characteristics, applications and their versatility in the polyurethane industry in detail.

1. Basic introduction to the trimerization catalyst TAP

1.1 Definition of TAP catalyst

Trimerization catalyst TAP is an amine catalyst based on triazine structure, with high efficiency, environmental protection and multifunctional characteristics. It can significantly improve the speed and efficiency of polyurethane reaction while improving the performance of the final product.

1.2 Structure and Characteristics of TAP Catalyst

The core structure of the TAP catalyst is the triazine ring, and its chemical formula is C3H3N3. The triazine ring has a high degree of stability and reactivity and is able to react with a variety of chemicals. The TAP catalyst further enhances its catalytic activity and selectivity by introducing different amine groups.

1.2.1 Chemical structure

The chemical structure of the TAP catalyst is as follows:

Chemical structure	Description
Triazine ring	Core structure, highly stable
Amine Group	Enhanced catalytic activity and selectivity

1.2.2 Physical Characteristics

Physical Characteristics	value
Appearance	Colorless to light yellow liquid
Density	1.05 g/cm³
Boiling point	250°C
Flashpoint	120°C

1.3 Advantages of TAP catalysts

Advantages	Description
Efficiency	Significantly improve the reaction speed of polyurethane
Environmental	Low toxicity, low volatileness, meet environmental protection requirements
Verifiability	Supplementary for a variety of polyurethane systems
Stability	Stay stable under high temperature and high pressure

2. Application of TAP catalyst in the polyurethane industry

2.1 Rigid polyurethane foam

Rough polyurethane foam is widely used in building insulation, cold chain transportation and other fields. The application of TAP catalyst in rigid polyurethane foam is mainly reflected in the following aspects:

2.1.1 Improve the reaction speed

TAP catalyst can significantly increase the reaction speed between isocyanate and polyol, shorten the foam forming time, and improve production efficiency.

parameters	Using TAP catalyst	TAP catalyst not used
Reaction time	30 seconds	60 seconds
Foam density	40 kg/m³	40 kg/m³
Compression Strength	200 kPa	180 kPa

2.1.2 Improve foam structure

TAP catalyst can promote uniform foaming of foam, improve the closed cell ratio of foam, and thus improve the insulation performance.

parameters	Using TAP catalyst	TAP catalyst not used
Closed porosity	95%	90%
Thermal conductivity	0.022 W/m·K	0.025 W/m·K

2.2 Soft polyurethane foam

Soft polyurethane foam is widely used in furniture, mattresses, car seats and other fields. The application of TAP catalyst in soft polyurethane foam is mainly reflected in the following aspects:

2.2.1 Improve elasticity

TAP catalysts can promote the cross-linking reaction between polyols and isocyanates, and improve the elasticity and durability of foams.

parameters	Using TAP catalyst	TAP catalyst not used
Elastic recovery rate	95%	90%
Tension Strength	150 kPa	130 kPa

2.2.2 Improve comfort

TAP catalyst can adjust the hardness of the foam and improve the comfort and support of the foam.

parameters	Using TAP catalyst	TAP catalyst not used
Hardness Index	60	55
Rounce rate	65%	60%

2.3 Polyurethane coating

Polyurethane coatings are widely used in construction, automobile, furniture and other fields. The application of TAP catalyst in polyurethane coatings is mainly reflected in the following aspects:

2.3.1 Improve curing speed

TAP catalyst can significantly increase the curing speed of the coating and shorten the construction time.

parameters	Using TAP catalyst	TAP catalyst not used
Current time	2 hours	4 hours
Hardness	2H	1H

2.3.2 Improve weather resistance

TAP catalyst can promote the occurrence of cross-linking reactions in coatings and improve the weather resistance and durability of coatings.

parameters	Using TAP catalyst	TAP catalyst not used
Weather resistance	1000 hours	800 hours
Chemical resistance	Excellent	Good

2.4 Polyurethane elastomer

Polyurethane elastomers are widely used in seals, tires, conveyor belts and other fields. The application of TAP catalyst in polyurethane elastomers is mainly reflected in the following aspects:

2.4.1 Improve mechanical properties

TAP catalyst can promote the occurrence of cross-linking reactions in elastomers and improve the mechanical properties of elastomers.

parameters	Using TAP catalyst	TAP catalyst not used
Tension Strength	40 MPa	35 MPa
Elongation of Break	500%	450%

2.4.2 Improve wear resistance

TAP catalyst can adjust the crosslinking density of the elastomer and improve the wear resistance and durability of the elastomer.

parameters	Using TAP catalyst	TAP catalyst not used
Abrasion resistance	Excellent	Good
Oil resistance	Excellent	Good

3. The multifunctional display of TAP catalyst

3.1 Determination of multifunctionalityRighteousness

The versatility of TAP catalysts is mainly reflected in their ability to be suitable for a variety of polyurethane systems and exhibit excellent catalytic effects in different systems. This versatility makes TAP catalysts an important catalyst in the polyurethane industry.

3.2 Specific manifestations of versatility

3.2.1 Suitable for a variety of polyurethane systems

TAP catalyst is not only suitable for rigid polyurethane foams and soft polyurethane foams, but also for polyurethane coatings, polyurethane elastomers and other polyurethane systems. This wide applicability makes TAP catalysts have an important position in the polyurethane industry.

Polyurethane System	Applicability
Rough polyurethane foam	Applicable
Soft polyurethane foam	Applicable
Polyurethane coating	Applicable
Polyurethane elastomer	Applicable

3.2.2 Improve Production Efficiency

TAP catalysts can significantly increase the speed of polyurethane reaction, shorten the production cycle, and improve production efficiency. This high efficiency makes TAP catalysts have important application value in industrial production.

Production Efficiency	Using TAP catalyst	TAP catalyst not used
Reaction time	Short down by 30%	Normal
Production cycle	Short 20%	Normal

3.2.3 Improve product performance

TAP catalysts can not only improve production efficiency, but also improve the performance of the final product. For example, in rigid polyurethane foam, TAP catalyst can improve the closed cell ratio and thermal insulation properties of the foam; in soft polyurethane foam, TAP catalyst can improve the elasticity and comfort of the foam.

Product Performance	Using TAP catalyst	TAP catalyst not used
Closed porosity	Advance by 5%	Normal
Elastic recovery rate	Advance by 5%	Normal

3.2.4 Environmental protection

TAP catalysts have the characteristics of low toxicity and low volatility, and meet environmental protection requirements. This environmental protection makes TAP catalysts have important application value in modern industrial production.

Environmental	Using TAP catalyst	TAP catalyst not used
Toxicity	Low	High
Volatility	Low	High

IV. Product parameters of TAP catalyst

4.1 Physical parameters

parameters	value
Appearance	Colorless to light yellow liquid
Density	1.05 g/cm³
Boiling point	250°C
Flashpoint	120°C

4.2 Chemical Parameters

parameters	value
Molecular Weight	200 g/mol
Solution	Easy soluble in water and alcohols
Stability	Stay stable under high temperature and high pressure

4.3 Application parameters

parameters	value
Applicable temperature	20-80°C
Applicable pressure	Normal pressure
Applicable System	Rough polyurethane foam, soft polyurethane foam, polyurethane coating, polyurethane elastomer

V. Future development trends of TAP catalysts

5.1 Efficiency

With the continuous development of the polyurethane industry, the requirements for the efficiency of catalysts are becoming increasingly high. In the future, TAP catalysts will develop in a direction of higher efficiency to meet the needs of industrial production.

5.2 Environmental protection

Environmental protection is an important trend in the development of modern industry. In the future, TAP catalysts will pay more attention to environmental protection performance, reduce environmental pollution, and meet the requirements of sustainable development.

5.3 Multifunctional

The versatility of TAP catalysts is one of its important advantages. In the future, TAP catalysts will further enhance their versatility and are suitable for more polyurethane systems to meet the needs of different fields.

5.4 Intelligent

With the development of intelligent technology, TAP catalysts may be combined with intelligent technology in the future to achieve intelligent control of the catalytic process and improve production efficiency and product quality.

Conclusion

Trimer catalyst TAP demonstrates outstanding versatility in the polyurethane industry. Its characteristics of high efficiency, environmental protection, and versatility make it an indispensable and important catalyst in the polyurethane industry. In the future, with the continuous advancement of technology, TAP catalysts will make greater development in terms of efficiency, environmental protection, multifunctionalization, intelligence, etc., and make greater contributions to the sustainable development of the polyurethane industry.

1•1337 133813391340 1341•2359

Page 1339 of 2359