The leader of China special amines-

Articles posted by: admin

How low viscosity odorless amine catalyst Z-130 helps achieve more environmentally friendly industrial pipeline systems

admin 3月 7th, 2025 News

How low viscosity odorless amine catalyst Z-130 can help achieve a more environmentally friendly industrial pipeline system

Introduction

With the increasing global environmental awareness, the design and manufacturing of industrial pipeline systems are also constantly developing towards a more environmentally friendly and efficient direction. As a new environmentally friendly catalyst, the low viscosity odorless amine catalyst Z-130 plays an important role in the manufacturing process of industrial pipeline systems. This article will introduce in detail the characteristics, applications of the Z-130 and how it can help achieve a more environmentally friendly industrial pipeline system.

1. Overview of low viscosity odorless amine catalyst Z-130

1.1 Product Introduction

Low viscosity odorless amine catalyst Z-130 is a highly efficient and environmentally friendly catalyst, mainly used in the synthesis of polyurethane (PU) materials. It has the characteristics of low viscosity, odorlessness, low volatility and high catalytic activity, and is widely used in the manufacturing of industrial pipeline systems.

1.2 Product parameters

parameter name	parameter value
Appearance	Colorless transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	1.02-1.05 g/cm³
Flashpoint	>100?
Voluble content	<0.5%
Catalytic Activity	High
Environmental Performance	Odorless, low VOC

1.3 Product Advantages

Low viscosity: It is convenient for uniform dispersion during the manufacturing process and improves production efficiency.
odorless: Improve the working environment and reduce the health impact on the operators.
Low Volatility: Reduce harmful gas emissions and meet environmental protection requirements.
High catalytic activity: Accelerate the reaction speed and shorten the production cycle.

2. Application of Z-130 in industrial pipeline systems

2.1 Polyurethane pipe manufacturing

Polyurethane (PU) materials are widely used in industrial pipeline systems due to their excellent mechanical properties, corrosion resistance and insulation properties. As a catalyst for PU materials, Z-130 can significantly improve the synthesis efficiency and quality of PU materials.

2.1.1 Reaction mechanism

Z-130 promotes rapid curing of PU materials by accelerating the reaction of isocyanate with polyol. Its low viscosity characteristics allow the catalyst to be evenly dispersed in the reaction system, ensuring the uniformity and stability of the PU material.

2.1.2 Application Effect

Improving Production Efficiency: The high catalytic activity of Z-130 significantly shortens the curing time of PU materials and improves production efficiency.
Improving product quality: Uniform catalytic action ensures the mechanical properties and corrosion resistance of PU materials.
Environmental Performance: The odorless and low volatile properties reduce harmful gas emissions and meet environmental protection requirements.

2.2 Pipe coating

The coating materials of industrial piping systems are usually made of polyurethane coatings to improve the corrosion resistance and service life of the pipe. As a catalyst for coating material, Z-130 can significantly improve the adhesion and durability of the coating.

2.2.1 Reaction mechanism

Z-130 improves the adhesion and durability of the coating by accelerating the curing reaction of polyurethane coatings. Its low viscosity properties allow the catalyst to be evenly dispersed in the coating, ensuring uniformity and stability of the coating.

2.2.2 Application Effect

Improving coating adhesion: The high catalytic activity of Z-130 significantly improves the coating adhesion and extends the service life of the pipeline.
Improving coating uniformity: The uniform catalytic action ensures the uniformity and stability of the coating.
Environmental Performance: The odorless and low volatile properties reduce harmful gas emissions and meet environmental protection requirements.

2.3 Pipe sealing material

The sealing materials of industrial piping systems are usually made of polyurethane sealant to improve the sealing performance and service life of the pipe. As a catalyst for sealing material, Z-130 can significantly improve the curing speed and sealing performance of the sealant.

2.3.1 Reaction mechanism

Z-130 improves the curing speed and sealing performance of the sealant by accelerating the curing reaction of the polyurethane sealant. Its low viscosity properties make the catalystIt can be evenly dispersed in the sealant to ensure uniformity and stability of the sealant.

2.3.2 Application Effect

Improving sealing performance: The high catalytic activity of Z-130 significantly improves the curing speed and sealing performance of the sealant, and extends the service life of the pipe.
Improve the uniformity of sealant: The uniform catalytic action ensures the uniformity and stability of sealant.
Environmental Performance: The odorless and low volatile properties reduce harmful gas emissions and meet environmental protection requirements.

3. Z-130 helps achieve a more environmentally friendly industrial pipeline system

3.1 Reduce harmful gas emissions

The odorless and low volatile properties of Z-130 significantly reduce the emission of harmful gases during industrial pipeline systems and meet environmental protection requirements.

3.1.1 Reduce VOC emissions

Volatile organic compounds (VOCs) are one of the main harmful gases in the manufacturing process of industrial pipeline systems. The low volatile properties of Z-130 significantly reduce VOC emissions and improve the working environment.

3.1.2 Reduce odor

The odorless properties of Z-130 significantly reduce odor during industrial pipeline systems manufacturing, improve the working environment and reduce the health impact on operators.

3.2 Improve production efficiency

The high catalytic activity of Z-130 significantly improves the production efficiency in the manufacturing process of industrial pipeline systems, shortens the production cycle and reduces production costs.

3.2.1 Shorten the curing time

The high catalytic activity of Z-130 significantly shortens the curing time of PU materials, coating materials and sealants, and improves production efficiency.

3.2.2 Improve product quality

The uniform catalytic effect of Z-130 ensures the uniformity and stability of PU materials, coating materials and sealants, and improves product quality.

3.3 Extend the service life of the pipeline

The high catalytic activity of Z-130 significantly improves the mechanical properties and corrosion resistance of PU materials, coating materials and sealants, and extends the service life of industrial pipeline systems.

3.3.1 Improve mechanical properties

The high catalytic activity of Z-130 significantly improves the mechanical properties of PU materials and extends the service life of industrial pipeline systems.

3.3.2 Improve corrosion resistance

The high catalytic activity of Z-130 significantly improves the corrosion resistance of coating materials and sealants, and extends the service life of industrial pipeline systems.

4. Market prospects of Z-130

4.1 Market demand

4.1.1 Environmental Protection Requirements

The environmental protection requirements for industrial pipeline systems in countries around the world are constantly increasing. The odorless and low volatile properties of Z-130 meet environmental protection requirements and have broad market prospects.

4.1.2 Efficient production

The high catalytic activity of Z-130 significantly improves the production efficiency in the manufacturing process of industrial pipeline systems, meets the requirements of efficient production, and has broad market prospects.

4.2 Technology development trends

With the continuous advancement of technology, the technology of Z-130 is also developing, and will be more efficient and environmentally friendly in the future.

4.2.1 High-efficiency Catalysis

In the future, the catalytic activity of Z-130 will be further improved, significantly shortening the curing time during the manufacturing process of industrial pipeline systems and improving production efficiency.

4.2.2 Environmental performance

In the future, the environmental performance of Z-130 will be further improved, significantly reducing the emission of harmful gases during industrial pipeline systems, and meeting environmental protection requirements.

5. Conclusion

As a new environmentally friendly catalyst, low viscosity odorless amine catalyst Z-130 plays an important role in the manufacturing process of industrial pipeline systems. Its low viscosity, odorless, low volatility and high catalytic activity characteristics significantly improve the production efficiency, product quality and environmental protection performance of industrial pipeline systems, and extend the service life of industrial pipeline systems. With the increasing global environmental awareness and the continuous advancement of technology, the Z-130 has broad market prospects and will be more efficient and environmentally friendly in the future.

Appendix

Appendix 1: Z-130 product parameter table

parameter name	parameter value
Appearance	Colorless transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	1.02-1.05 g/cm³
Flashpoint	>100?
Voluble content	<0.5%
Catalytic Activity	High
Environmental Performance	Odorless, low VOC

Appendix 2: Z-130 application effect table

Application Fields	Application Effect
Polyurethane pipe manufacturing	Improve production efficiency, improve product quality, and environmental performance
Pipe Coating	Improve coating adhesion, improve coating uniformity, and environmental performance
Pipe Sealing Material	Improve sealing performance, improve sealant uniformity and environmental protection performance

Appendix 3: Z-130 Market Outlook Table

Market Demand	Technical development trends
Environmental Protection Requirements	Efficient catalysis and environmental protection performance
Efficient production	Efficient catalysis and environmental protection performance

Through the above content, we can see the application of low viscosity odorless amine catalyst Z-130 in industrial pipeline systems and its contribution to environmental protection and efficient production. With the continuous advancement of technology, the Z-130 will play a greater role in the future to help achieve a more environmentally friendly industrial pipeline system.

Environmental protection and health characteristics of low viscosity odorless amine catalyst Z-130 in smart home equipment

admin 3月 7th, 2025 News

Environmental and health characteristics of low viscosity odorless amine catalyst Z-130 in smart home equipment

Introduction

With the continuous advancement of technology, smart home devices have become an indispensable part of modern homes. These devices not only improve the convenience of life, but also play an important role in environmental protection and health. In the manufacturing process of smart home devices, the selection of materials is crucial. As a new environmentally friendly material, the low viscosity odorless amine catalyst Z-130 has been widely used in smart home equipment due to its unique performance. This article will introduce the product parameters, environmental protection characteristics, health characteristics of Z-130 and its application in smart home devices in detail.

1. Product parameters of low viscosity odorless amine catalyst Z-130

1.1 Basic parameters

parameter name	parameter value
Chemical Name	Low viscosity odorless amine catalyst Z-130
Appearance	Colorless transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	0.95-1.05 g/cm³
Flashpoint	>100?
Boiling point	>200?
Solution	Easy soluble in water and organic solvents
Storage Conditions	Cool and dry places to avoid direct sunlight

1.2 Environmental protection parameters

parameter name	parameter value
VOC content	<50 g/L
Toxicity	Low toxic
Biodegradability	Biodegradable
Environmental Impact	Low environmental impact

1.3 Health parameters

parameter name	parameter value
odor	odorless
Skin irritation	Not irritating
Respiratory irritation	Not irritating
Carcogenicity	No carcinogenicity

2. Environmental protection characteristics of low viscosity odorless amine catalyst Z-130

2.1 Low VOC content

VOC (volatile organic compounds) is one of the main sources of indoor air pollution. The VOC content of Z-130 is less than 50 g/L, which is much lower than the VOC content of traditional catalysts. This enables the application of Z-130 in smart home devices to effectively reduce indoor air pollution and improve indoor air quality.

2.2 Biodegradability

Z-130 has good biodegradability and can quickly decompose in the natural environment and reduce its long-term impact on the environment. This feature enables the Z-130 to effectively reduce the burden on the environment during the manufacturing and use of smart home devices.

2.3 Low environmental impact

Z-130 has extremely low environmental impact during production and use. Its low toxicity and low VOC content make it not harmful to workers and the environment during production. At the same time, the biodegradability of Z-130 also reduces its long-term impact on the environment.

III. Health characteristics of low viscosity odorless amine catalyst Z-130

3.1 Odorless

Z-130 is tasteless and will not cause irritation to the user’s sense of smell. This feature allows the application of Z-130 in smart home devices to improve the user experience, especially in devices that require long-term contact, such as air purifiers, humidifiers, etc.

3.2 Non-irritating

Z-130 is non-irritating to the skin and respiratory tract and does not cause allergies or other health problems. This feature enables the application of Z-130 in smart home devices to protect the health of users, especially in devices that require long-term contact, such as smart mattresses, smart pillows, etc.

3.3 No carcinogenicity

Z-130 is not carcinogenic and will not cause long-term harm to the user’s health. This feature enables the application of Z-130 in smart home devices to protect the long-term health of users.Especially among devices that require long-term contact, such as smart furniture, smart home appliances, etc.

IV. Application of low viscosity odorless amine catalyst Z-130 in smart home equipment

4.1 Air Purifier

Air purifier is an important part of smart home equipment, and its main function is to purify indoor air. The low VOC content and odorless properties of Z-130 enable its application in air purifiers to effectively improve indoor air quality and ensure user health.

4.2 Humidifier

Humidifiers are an important part of smart home equipment, and their main function is to regulate indoor humidity. The odorless and non-irritating properties of Z-130 enables its application in humidifiers to improve user experience and protect user health.

4.3 Smart mattress

Smart mattresses are an important part of smart home devices, and their main function is to provide a comfortable sleeping environment. The odorless and non-irritating properties of Z-130 enables its application in smart mattresses to improve the quality of users’ sleep and ensure the health of users.

4.4 Smart Pillow

Smart pillows are an important part of smart home devices, and their main function is to provide a comfortable sleeping environment. The odorless and non-irritating properties of Z-130 enables its application in smart pillows to improve the quality of users’ sleep and ensure the health of users.

4.5 Smart Furniture

Smart furniture is an important part of smart home devices, and its main function is to provide a comfortable living environment. The odorless and non-irritating properties of Z-130 enables its application in smart furniture to improve users’ quality of life and ensure users’ health.

4.6 Smart home appliances

Smart home appliances are an important part of smart home devices, and their main function is to provide a convenient living environment. The odorless and non-irritating properties of Z-130 enables its application in smart home appliances to improve users’ quality of life and ensure users’ health.

V. Future development of low viscosity odorless amine catalyst Z-130

5.1 Technological Innovation

With the continuous advancement of technology, the production process and application technology of Z-130 are also constantly innovating. In the future, the Z-130 is expected to be used in more smart home devices, further improving the environmental protection and health characteristics of smart home devices.

5.2 Market expansion

As consumers’ demand for environmental protection and health continues to increase, the market demand for Z-130 is also increasing. In the future, the Z-130 is expected to be widely used worldwide and become an important material in the manufacturing of smart home equipment.

5.3 Policy Support

With the attention of governments to environmental protection and health, Z-130’sProduction and application are expected to receive more policy support. In the future, the production and application of Z-130 will be more standardized, further promoting the environmental protection and healthy development of smart home devices.

Conclusion

As a new environmentally friendly material, low viscosity odorless amine catalyst Z-130 has wide application prospects in smart home equipment. Its low VOC content, biodegradability, odorless, non-irritating and non-carcinogenic properties enables its application in smart home devices to effectively improve indoor air quality and ensure users’ health. In the future, with the continuous innovation of technology and the continuous expansion of the market, the Z-130 is expected to be applied in more smart home devices, further promoting the environmental protection and healthy development of smart home devices.

Unique application of low viscosity odorless amine catalyst Z-130 in high-performance polyurethane foam

admin 3月 7th, 2025 News

The unique application of low viscosity odorless amine catalyst Z-130 in high-performance polyurethane foams

Introduction

Polyurethane foam materials have become one of the indispensable materials in modern industry due to their excellent physical properties and wide application fields. However, with the increasing strict environmental regulations and the increasing consumer requirements for product safety, traditional polyurethane foam catalysts have gradually exposed some problems, such as large odors and high emissions of volatile organic compounds (VOCs). As a new environmentally friendly catalyst, the low-viscosity odorless amine catalyst Z-130 has gradually attracted attention in its application in high-performance polyurethane foam. This article will introduce the product parameters, application advantages of Z-130 and its unique application in high-performance polyurethane foams in detail.

1. Overview of low viscosity odorless amine catalyst Z-130

1.1 Product Introduction

Low viscosity odorless amine catalyst Z-130 is a highly efficient and environmentally friendly polyurethane foam catalyst with low viscosity, odorless and low VOC emissions. It is mainly used in the production of soft, semi-rigid and rigid polyurethane foams, and can significantly improve the physical and processing properties of the foam.

1.2 Product parameters

parameter name	parameter value
Appearance	Colorless to light yellow transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	0.95-1.05 g/cm³
Flashpoint	>100?
Boiling point	>200?
Solution	Easy soluble in water and organic solvents
pH value	7.0-9.0
VOC content	<50 g/L

1.3 Product Advantages

Low Viscosity: The low viscosity characteristics of Z-130 make it easy to mix and disperse in the production of polyurethane foam, improving production efficiency.
??: With theCompared with the amine catalyst, Z-130 is almost odorless, improving the working environment and reducing the health impact on the operators.
Low VOC Emissions: The low VOC emission characteristics of Z-130 comply with environmental regulations and help reduce environmental pollution.
High-efficiency Catalysis: Z-130 has efficient catalytic properties, which can significantly shorten the curing time of polyurethane foam and improve production efficiency.

2. Application of Z-130 in high-performance polyurethane foam

2.1 Soft polyurethane foam

Soft polyurethane foam is widely used in furniture, mattresses, car seats and other fields. The application of Z-130 in soft polyurethane foam is mainly reflected in the following aspects:

Improve foam elasticity: Z-130 can effectively promote polyurethane reaction, improve the elasticity and resilience of foam, and make the foam softer and more comfortable.
Improve the foam open-cell structure: The catalytic action of Z-130 helps to form a uniform open-cell structure and improves the breathability and comfort of the foam.
Shorten curing time: The highly efficient catalytic performance of Z-130 significantly shortens the curing time of soft polyurethane foam and improves production efficiency.

2.2 Semi-rigid polyurethane foam

Semi-rigid polyurethane foam is mainly used in automotive interiors, packaging materials and other fields. The application advantages of Z-130 in semi-rigid polyurethane foam include:

Enhanced foam strength: Z-130 can promote polyurethane reaction, improve the strength and durability of foam, making it more suitable for use in areas with higher requirements such as automotive interiors.
Improving Foam Surface Quality: The catalytic action of Z-130 helps to form a smooth and uniform foam surface and improves the appearance quality of the product.
Reduce foam density: The low viscosity characteristics of Z-130 help reduce the density of foam, reduce product weight, and reduce production costs.

2.3 Rigid polyurethane foam

Rough polyurethane foam is widely used in building insulation, cold chain logistics and other fields. The application of Z-130 in rigid polyurethane foam is mainly reflected in the following aspects:

Improving foam insulation performance: Z-130 can promote polyurethane reaction, form a uniform closed-cell structure, and improve the foam insulation performance.
Enhance the mechanical strength of foam: The catalytic action of Z-130 helps to improve the mechanical strength of foam, making it more suitable for use in areas with higher requirements such as building insulation.
Shorten curing time: The highly efficient catalytic performance of Z-130 significantly shortens the curing time of rigid polyurethane foam and improves production efficiency.

III. Analysis of application case of Z-130

3.1 Soft polyurethane foam for furniture

In the production of soft polyurethane foam for furniture, the application of Z-130 has significantly improved the elasticity and comfort of the foam. By adjusting the amount of Z-130 added, the hardness and resilience of the foam can be accurately controlled to meet the needs of different furniture products. In addition, the low viscosity characteristics of Z-130 make it easy to disperse during mixing, improving production efficiency.

3.2 Semi-rigid polyurethane foam for automotive interior

In the production of semi-rigid polyurethane foam for automotive interiors, the application of Z-130 significantly improves the strength and durability of the foam. By optimizing the amount of Z-130 added, the hardness and surface quality of the foam can be accurately controlled to meet the high requirements of the automotive interior. In addition, the low VOC emission characteristics of the Z-130 meet the environmental requirements of the automotive industry and help reduce air pollution in the car.

3.3 Rigid polyurethane foam for building insulation

In the production of rigid polyurethane foam for building insulation, the application of Z-130 has significantly improved the insulation performance and mechanical strength of the foam. By adjusting the amount of Z-130, the density and closed cell ratio of foam can be accurately controlled to meet the high requirements of building insulation. In addition, the efficient catalytic performance of Z-130 significantly shortens the curing time of the foam and improves production efficiency.

IV. Future development prospects of Z-130

With the increasing strict environmental regulations and the increasing consumer requirements for product safety, the low viscosity odorless amine catalyst Z-130 has broad application prospects in high-performance polyurethane foams. In the future, the Z-130 is expected to make further breakthroughs in the following aspects:

Improve catalytic efficiency: By optimizing the molecular structure of Z-130, it further improves its catalytic efficiency and shortens the curing time of polyurethane foam.
Reduce VOC emissions: By improving the production process, further reduce the VOC emissions of Z-130 and meet stricter environmental protection requirements.
Expand application fields: Expand its application in more fields by developing new Z-130 derivatives, such as medical care, electronics, etc.

V. Conclusion

As a new environmentally friendly catalyst, low viscosity odorless amine catalyst Z-130 has significant advantages in its application in high-performance polyurethane foams. Its low viscosity, odorless, low VOC emissions and other characteristics make it outstanding in the production of soft, semi-rigid and rigid polyurethane foams. By optimizing the addition amount and production process of Z-130, the physical and processing properties of polyurethane foam can be significantly improved, meeting the application needs of different fields. In the future, with the increasing strict environmental regulations and the increasing consumer requirements for product safety, the Z-130’s application prospects in high-performance polyurethane foam will be broader.

Appendix: Comparison of the application effects of Z-130 in different types of polyurethane foams

Foam Type	Application Effect
Soft polyurethane foam	Improve elasticity, improve open structure, and shorten curing time
Semi-rigid polyurethane foam	Enhance strength, improve surface quality, reduce density
Rough polyurethane foam	Improve thermal insulation performance, enhance mechanical strength, and shorten curing time

From the above comparison, we can see that Z-130 has significant application effects in different types of polyurethane foams and can meet the application needs of different fields.

1•1433 143414351436 1437•2357

Page 1435 of 2357