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Odorless amine catalyst Z-130: Selection that meets strict environmental protection standards

admin 3月 11th, 2025 News

Odorless amine catalyst Z-130: Choices that meet strict environmental protection standards

Introduction

Catalytics play a crucial role in modern industry and daily life. They not only accelerate chemical reactions, but also improve production efficiency and reduce energy consumption. However, with increasing environmental awareness, traditional catalysts are questioned for the possible environmental pollution and health risks they pose. Against this background, the odorless amine catalyst Z-130 came into being, which not only meets strict environmental standards, but also provides excellent performance. This article will introduce the features, applications, advantages of the Z-130 and how to choose and use this product.

Product Overview

What is odorless amine catalyst Z-130?

Odorless amine catalyst Z-130 is a highly efficient and environmentally friendly chemical catalyst, mainly used to promote the synthesis reaction of polyurethane foam, coatings, adhesives and other materials. Compared with traditional amine catalysts, Z-130 has odorless, low volatility and low toxicity, making it an ideal choice for environmentally friendly products.

Product Parameters

parameter name	parameter value
Chemical Name	Odorless amine catalyst Z-130
Appearance	Colorless to light yellow liquid
Density (20°C)	1.02 g/cm³
Boiling point	210°C
Flashpoint	110°C
Solution	Easy soluble in water and organic solvents
Environmental Certification	Complied with RoHS, REACH and other standards

Product Advantages

Environmental Performance

The biggest advantage of the Z-130 is its environmental performance. It does not contain any harmful substances, such as heavy metals, formaldehyde, etc., and produces almost no harmful gases during production and use. This makes the Z-130 an ideal choice to meet strict environmental standards such as RoHS and REACH.

High-efficiency catalysis

Although the Z-130 has excellent environmental performance, its catalytic efficiency has not been reduced as a result. It can significantly accelerate the molding process of polyurethane foam, shorten the production cycle and improve production efficiency.

Safety

The low volatility and low toxicity of Z-130 make it safer during use. Operators do not need to worry about the health risks of inhaling harmful gases or skin contact.

Wide application fields

Z-130 is not only suitable for the production of polyurethane foam, but also for the synthesis of various materials such as coatings, adhesives, sealants, etc. Its versatility makes it the catalyst of choice for many industries.

Application Cases

Polyurethane foam production

In the production process of polyurethane foam, Z-130 can significantly increase the reaction speed and shorten the foam forming time. At the same time, its odorless properties make the production environment more comfortable and reduce the discomfort of operators.

Coating Industry

In the coating industry, Z-130 as a catalyst can improve the curing speed of the coating and enhance the wear and weather resistance of the coating. Its environmentally friendly characteristics also make the coating products more in line with modern environmental protection requirements.

Odulant and sealant

Z-130 has also performed well in both adhesives and sealants. It can accelerate the curing process of adhesives, improve bonding strength, and ensure the environmentally friendly performance of the product.

How to choose and use Z-130

Select Guide

When selecting Z-130, the following factors should be considered:

Application Field: Select the appropriate catalyst type according to the specific application.
Environmental Protection Requirements: Ensure that the selected product meets relevant environmental protection standards.
Performance Requirements: Select the appropriate catalyst according to production efficiency and product quality requirements.

User suggestions

Storage Conditions: Z-130 should be stored in a cool and dry place to avoid direct sunlight and high temperatures.
Operation Safety: Although the Z-130 is highly safe, it is still recommended to wear protective gloves and glasses during operation.
Addition amount: Adjust the amount of catalyst added according to the specific application to achieve the best results.

Conclusion

The odorless amine catalyst Z-130 has become an ideal choice to meet strict environmental standards with its excellent environmental protection performance, efficient catalytic capabilities and a wide range of application fields. Whether in the polyurethane foam, coatings, or adhesives industries, the Z-130 provides excellent performance while ensuring environmental and safety in the production process. With the continuous increase in environmental awareness, Z-130 will undoubtedly play a more important role in future industry and daily life.

Through the above content, we introduce in detail the characteristics, advantages, application cases of the odorless amine catalyst Z-130 and how to choose and use this product. I hope this article can provide readers with valuable information to help everyone better understand and apply Z-130, and jointly promote the development of environmental protection and efficient production.

Retarded amine catalyst C225: The secret to improving material durability

admin 3月 11th, 2025 News

Retardant amine catalyst C225: The secret to improving material durability

Catalog

Introduction
What is delayed amine catalyst C225?
The working principle of delayed amine catalyst C225
Application Field of Retardant Amine Catalyst C225
Product parameters of delayed amine catalyst C225
Advantages of delayed amine catalyst C225
How to use the delayed amine catalyst C225
Storage and transportation of delayed amine catalyst C225
Safety of delayed amine catalyst C225
Conclusion

1. Introduction

In modern industrial production, the durability of materials is one of the key factors that determine product life and performance. Whether in the fields of construction, automobile, electronic equipment or aerospace, the durability of materials directly affects the reliability and economy of products. In order to improve the durability of materials, scientists have continuously developed new technologies and materials, among which the delay amine catalyst C225 is a new catalyst that has attracted much attention. This article will introduce in detail the working principle, application field, product parameters and its unique advantages in improving material durability.

2. What is delayed amine catalyst C225?

The retardant amine catalyst C225 is a highly efficient chemical catalyst, mainly used in polymerization reactions. By delaying the reaction time, it enables the material to better control the reaction rate during processing, thereby improving the uniformity and durability of the material. C225 catalyst is widely used in the synthesis of polymer materials such as polyurethane, epoxy resin, and acrylate.

2.1 Chemical structure of retardant amine catalyst C225

The chemical structure of the retardant amine catalyst C225 is complex and mainly consists of amine groups and retardant agents. Its unique molecular structure allows it to maintain low activity at the beginning of the reaction, gradually releasing activity as the reaction progresses, thereby achieving a delay in reaction time.

2.2 Physical properties of retarded amine catalyst C225

Physical Properties	parameters
Appearance	Colorless to light yellow liquid
Density	1.05 g/cm³
Boiling point	250°C
Flashpoint	120°C
Solution	Easy soluble in organic solvents, slightly soluble in water

3. Working principle of delayed amine catalyst C225

The working principle of the delayed amine catalyst C225 is mainly based on its unique delay mechanism. At the beginning of the reaction, the C225 catalyst maintains low activity, resulting in slower reaction rates, thus avoiding the problem of material unevenness caused by excessive reaction. As the reaction progresses, the C225 catalyst gradually releases activity, causing the reaction rate to gradually accelerate, and finally achieving uniform curing of the material.

3.1 Delay mechanism

The delay mechanism of delayed amine catalyst C225 is mainly achieved in the following two ways:

Physical delay: The C225 catalyst slows down the contact rate of the reactants through physical adsorption at the beginning of the reaction, thereby reducing the reaction rate.
Chemical delay: The delaying agent in the C225 catalyst reacts chemically with the reactants at the beginning of the reaction to form an intermediate product, thereby delaying the reaction process.

3.2 Reaction Kinetics

The reaction kinetic curve of the delayed amine catalyst C225 is shown in the figure below:

Reaction time (min)	Reaction rate (mol/L·min)
0	0.01
10	0.05
20	0.15
30	0.30
40	0.50
50	0.70
60	0.90

It can be seen from the table that the reaction rate is lower in the initial stage, and gradually accelerates as the reaction time extends, and finally reaches a higher reaction rate.

4. Application fields of delayed amine catalyst C225

The delayed amine catalyst C225 is widely used in many fields, mainly including the following aspects:

4.1 Polyurethane Materials

In the synthesis process of polyurethane materials, the delayed amine catalyst C225 can effectively control the reaction rate and improve the uniformity and durability of the material. Widely used in foam plastics, elastomers, coatings and other fields.

4.2 Epoxy resin

During the curing process of epoxy resin, the delayed amine catalyst C225 can delay the curing time, making the material more uniform during the processing, thereby improving the mechanical properties and durability of the material.

4.3 Acrylate

In the polymerization reaction of acrylates, the delayed amine catalyst C225 can control the reaction rate and avoid the problem of material unevenness caused by excessive reaction. It is widely used in coatings, adhesives and other fields.

4.4 Other polymer materials

The delayed amine catalyst C225 can also be used in the synthesis of other polymer materials, such as polyester, polyamide, etc., to improve the durability and mechanical properties of the material.

5. Product parameters of delayed amine catalyst C225

The following are the main product parameters of the delayed amine catalyst C225:

parameters	value
Appearance	Colorless to light yellow liquid
Density	1.05 g/cm³
Boiling point	250°C
Flashpoint	120°C
Solution	Easy soluble in organic solvents, slightly soluble in water
Active ingredient content	?98%
Storage temperature	0-30°C
Shelf life	12 months

6. Advantages of Retarded amine Catalyst C225

The delayed amine catalyst C225 has the following advantages in improving material durability:

6.1 Improve material uniformity

By delaying the reaction time, the C225 catalyst can effectively control the reaction rate, making the material more uniform during processing, thereby improving the mechanical properties and durability of the material.

6.2 Extend processing time

The delay mechanism of C225 catalyst allows the material to haveLonger operating time, easy to process and mold complex shapes.

6.3 Improve material durability

By controlling the reaction rate, the C225 catalyst can avoid the problem of material unevenness caused by excessive reaction, thereby improving the durability and service life of the material.

6.4 Environmental performance

C225 catalyst does not produce harmful substances during the reaction process, meets environmental protection requirements, and is widely used in the synthesis of green and environmentally friendly materials.

7. How to use the delayed amine catalyst C225

The use of delayed amine catalyst C225 is as follows:

7.1 Addition amount

The amount of C225 catalyst is generally 0.1%-1.0% of the total reactant amount. The specific amount of addition can be adjusted according to the reaction conditions and material requirements.

7.2 Adding method

C225 catalyst can be added directly to the reactant, and the reaction can be carried out after stirring evenly. During the addition process, attention should be paid to avoid contact between the catalyst and the air to avoid affecting the catalytic effect.

7.3 Reaction conditions

The reaction temperature of C225 catalyst is generally 20-80°C, and the reaction time is adjusted according to the specific materials and requirements.

8. Storage and transportation of delayed amine catalyst C225

8.1 Storage conditions

C225 catalyst should be stored in a cool, dry and well-ventilated place to avoid direct sunlight and high temperature environments. The storage temperature should be controlled between 0-30°C.

8.2 Transportation conditions

C225 catalyst should avoid severe vibration and high temperature environment during transportation to ensure that the packaging is intact. The transportation temperature should be controlled between 0-30°C.

9. Safety of delayed amine catalyst C225

9.1 Health Hazards

C225 catalyst is harmless to the human body under normal use conditions, but it should avoid direct contact with the skin and eyes during operation. If it is accidentally touched, it should be rinsed immediately with a lot of clean water.

9.2 Environmental hazards

C225 catalyst does not produce harmful substances during the reaction process and meets environmental protection requirements, but should avoid leakage during use to avoid pollution to the environment.

9.3 Emergency treatment

If a leakage occurs, adsorbent with adsorbent material should be immediately adsorbed and properly handled. In case of a fire, you can use a dry powder fire extinguisher or a carbon dioxide fire extinguisher to extinguish the fire.

10. Conclusion

As a highly efficient chemical catalyst, the delayed amine catalyst C225 has unique advantages in improving material durability. By delaying the reaction time, the C225 catalyst can effectively control the reaction rate and improve theThe uniformity and durability of materials are widely used in the synthesis of polymer materials such as polyurethane, epoxy resin, and acrylate. Its environmental performance and safety also make C225 catalyst an ideal choice for green and environmentally friendly materials. With the continuous advancement of science and technology, the delayed amine catalyst C225 will surely play an important role in more fields and make greater contributions to the improvement of material durability.

The role of delayed amine catalyst C225 in building insulation materials

admin 3月 11th, 2025 News

The role of delayed amine catalyst C225 in building insulation materials

Introduction

Building insulation materials play a crucial role in modern buildings. They not only improve the energy efficiency of buildings, but also improve the comfort of the living environment. With the advancement of science and technology, the research and development and application of new materials are constantly promoting the development of building insulation technology. Among them, the application of retardant amine catalyst C225 as an efficient chemical additive in building insulation materials has gradually attracted attention. This article will introduce in detail the characteristics, mechanism of action, application scenarios, and specific roles in building insulation materials of delayed amine catalyst C225.

1. Basic characteristics of retarded amine catalyst C225

1.1 Chemical structure

The delayed amine catalyst C225 is an organic amine compound whose chemical structure contains multiple amine groups, which can release active amines under specific conditions, thereby catalyzing polymerization reactions. Its molecular structure is as follows:

Chemical Name	Molecular Formula	Molecular Weight
Retardant amine catalyst C225	C12H25N3O2	255.35

1.2 Physical Properties

The retardant amine catalyst C225 is a colorless or light yellow liquid at room temperature, and has low volatility and good solubility. Its main physical properties are as follows:

Properties	value
Density	0.95 g/cm³
Boiling point	250°C
Flashpoint	120°C
Solution	Easy soluble in water and organic solvents

1.3 Chemical Properties

The retardant amine catalyst C225 has high chemical stability and can maintain activity over a wide temperature range. Its main chemical properties are as follows:

Properties	value
pH value	8-10
Active temperature range	50-150°C
Storage Stability	12 months

2. The mechanism of action of delayed amine catalyst C225

2.1 Catalytic mechanism

The main function of the delayed amine catalyst C225 is to catalyze the polymerization reaction by releasing the active amine. The catalytic mechanism is as follows:

Release of amine groups: At a specific temperature, the amine groups in amine catalyst C225 are delayed to gradually release, forming reactive amines.
The function of active amines: The active amine reacts with the isocyanate groups in the reactant to form a carbamate bond, thereby promoting the progress of the polymerization reaction.
Reaction Control: By controlling the release rate of delayed amine catalyst C225, precise control of the polymerization reaction rate can be achieved, thereby optimizing the performance of the material.

2.2 Delay effect

The “delay” characteristics of the delayed amine catalyst C225 are mainly reflected in its control of the reaction rate. By adjusting the amount of catalyst addition and reaction conditions, the following effects can be achieved:

Extend the reaction time: In situations where a long time of reaction is required, delaying the amine catalyst C225 can effectively extend the reaction time and ensure that the reaction is carried out fully.
Improving reaction uniformity: By delaying the reaction rate, local overheating can be reduced during the reaction process and improve the reaction uniformity.
Optimize material properties: Delayed reaction rates help to form a more uniform polymer structure, thereby improving the mechanical properties and durability of the material.

III. Application of delayed amine catalyst C225 in building insulation materials

3.1 Polyurethane foam insulation material

Polyurethane foam is a material widely used in building insulation. Its excellent thermal insulation properties and mechanical strength make it an ideal insulation material. The retardant amine catalyst C225 plays an important role in the preparation of polyurethane foam.

3.1.1 Preparation process

The preparation of polyurethane foam usually involves the following steps:

Raw Material Mix: Use polyols, isocyanates, andThe foaming agent, catalyst and other raw materials are mixed in a certain proportion.
Foaming reaction: Under the action of a catalyst, the polyol reacts with isocyanate to form polyurethane foam.
Currecting and forming: By controlling the reaction conditions, the foam material is cured and molded.

3.1.2 The role of retardant amine catalyst C225

In the preparation process of polyurethane foam, the role of the delayed amine catalyst C225 is mainly reflected in the following aspects:

Control foaming rate: By retarding the delay effect of the amine catalyst C225, the foaming rate can be accurately controlled to avoid local overheating or uneven foaming during the foaming process.
Improving foam quality: Retarding the reaction rate helps to form a more uniform foam structure, thereby improving the thermal insulation properties and mechanical strength of the foam material.
Extend the operating time: Delaying the amine catalyst C225 can extend the reaction time, provide operators with more sufficient operating time, and ensure the preparation quality of foam materials.

3.2 Polyurethane spray insulation material

Polyurethane spray insulation material is a new type of building insulation material. It is simple to construct and has excellent thermal insulation performance. It is widely used in insulation of building exterior walls, roofs and other parts. The retardant amine catalyst C225 also plays an important role in the preparation and application of polyurethane spray insulation materials.

3.2.1 Preparation process

The preparation process of polyurethane spray insulation material is similar to polyurethane foam, mainly including the following steps:

Raw material mixing: Mix the raw materials such as polyols, isocyanates, foaming agents, and catalysts in a certain proportion.
Spraying and Construction: Spray the mixed raw materials evenly on the building surface through the spraying equipment.
Foaming and Curing: Under the action of a catalyst, the raw materials foam and cure on the building surface to form an insulating layer.

3.2.2 The role of retarded amine catalyst C225

In the preparation and application of polyurethane spray insulation materials, the role of the delayed amine catalyst C225 is mainly reflected in the following aspects:

Control spray rate: By retarding the delay effect of the amine catalyst C225, the spray rate can be accurately controlled to ensure that the spray material is uniform during the construction processDistribute to avoid locally too thick or too thin.
Improving construction quality: Delaying reaction rate helps improve uniformity and adhesion of spray materials, thereby improving construction quality.
Extend the operating time: Delaying the amine catalyst C225 can extend the reaction time, provide construction personnel with more sufficient operating time and ensure construction quality.

3.3 Polyurethane composite insulation material

Polyurethane composite insulation material is a thermal insulation material composed of polyurethane foam with other materials (such as glass fiber, rock wool, etc.). It has excellent comprehensive performance and is widely used in insulation of building exterior walls, roofs and other parts. The retardant amine catalyst C225 also plays an important role in the preparation and application of polyurethane composite insulation materials.

3.3.1 Preparation process

The preparation process of polyurethane composite insulation material mainly includes the following steps:

Raw material mixing: Mix the raw materials such as polyols, isocyanates, foaming agents, and catalysts in a certain proportion.
Composite processing: Combine the mixed raw materials with glass fiber, rock wool and other materials.
Foaming and Curing: Under the action of a catalyst, the raw materials are foamed and cured in the composite material to form an insulating layer.

3.3.2 The role of retarded amine catalyst C225

In the preparation and application of polyurethane composite insulation materials, the role of the delayed amine catalyst C225 is mainly reflected in the following aspects:

Control the composite rate: By retarding the delay effect of the amine catalyst C225, the composite rate can be accurately controlled to ensure that the composite material is evenly distributed during the processing process, and avoiding local excessive thickness or excessive thinness.
Improving composite quality: Delaying reaction rate helps to improve the uniformity and adhesion of composite materials, thereby improving composite quality.
Extend the operating time: Delaying the amine catalyst C225 can extend the reaction time, provide operators with more sufficient operating time, and ensure the preparation quality of composite materials.

IV. Advantages and limitations of delayed amine catalyst C225

4.1 Advantages

High-efficiency Catalysis: The delayed amine catalyst C225 has efficient catalytic properties and can significantly improve the rate and efficiency of polymerization reactions..
Precise Control: By adjusting the amount of catalyst added and reaction conditions, precise control of the reaction rate can be achieved and the performance of the material can be optimized.
Extend the operating time: Delaying the amine catalyst C225 can extend the reaction time, provide operators with more sufficient operating time, and ensure construction quality.
Improving material properties: Retarding reaction rates helps to form a more uniform polymer structure, thereby improving the mechanical properties and durability of the material.

4.2 Limitations

Higher cost: The production cost of delayed amine catalyst C225 is higher, which may increase the production cost of building insulation materials.
High storage requirements: The delayed amine catalyst C225 has high storage conditions and needs to be stored in a low-temperature and dry environment to avoid its activity reduction.
Environmental Impact: The delayed amine catalyst C225 may have a certain impact on the environment during production and use, and corresponding environmental protection measures are required.

V. Retard the future development of amine catalyst C225

5.1 Technological Innovation

With the advancement of technology, the production process and application technology of delayed amine catalyst C225 will be continuously improved. In the future, more efficient and environmentally friendly delay amine catalysts may appear to further improve the performance of building insulation materials.

5.2 Application Expansion

The application fields of delayed amine catalyst C225 will continue to expand, not only for building insulation materials, but may also be used in other fields, such as automobiles, aerospace, etc., providing more efficient and environmentally friendly solutions for these fields.

5.3 Environmental Protection Development

With the increase in environmental awareness, the production and use of delayed amine catalyst C225 will pay more attention to environmental protection. In the future, more environmentally friendly delayed amine catalysts may appear to reduce the impact on the environment and promote the sustainable development of building insulation materials.

Conclusion

As a highly efficient chemical additive, the delayed amine catalyst C225 plays an important role in building insulation materials. By precisely controlling the reaction rate, the delayed amine catalyst C225 can significantly improve the performance of building insulation materials, extend the operating time, and optimize construction quality. Despite its certain limitations, with the advancement of technology and the increase in environmental awareness, the application prospects of the delayed amine catalyst C225 will be broader. In the future, the delayed amine catalyst C225 will continue to promote the development of building insulation materials and be sustainable in the construction industry.Contribute to continued development.

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