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Safety contribution of low viscosity odorless amine catalyst Z-130 in thermal insulation materials of nuclear energy facilities

admin 3月 7th, 2025 News

Safety contribution of low viscosity odorless amine catalyst Z-130 in thermal insulation materials of nuclear energy facilities

Introduction

The safe operation of nuclear energy facilities is one of the core issues in nuclear energy utilization. As an important part of nuclear energy facilities, insulation materials directly affect the safety and stability of the facilities. As an efficient and environmentally friendly catalyst, the low viscosity odorless amine catalyst Z-130 is used in thermal insulation materials of nuclear energy facilities, which not only improves the performance of the material, but also provides strong guarantees for the safe operation of nuclear energy facilities. This article will introduce the product parameters, application advantages of Z-130 and its safety contribution to thermal insulation materials in nuclear energy facilities 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 catalyst, widely used in polyurethane foams, coatings, adhesives and other fields. Its low viscosity and odorless characteristics make it have significant advantages in thermal insulation materials of nuclear energy facilities.

1.2 Product parameters

parameter name	parameter value
Appearance	Colorless transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	0.95-1.05 g/cm³
Flashpoint	>100?
Amine Value	300-350 mg KOH/g
Water-soluble	Full dissolve
Storage temperature	5-30?
Shelf life	12 months

1.3 Product Advantages

Low viscosity: Easy to mix and disperse, improving production efficiency.
odorless: Improve the working environment and reduce the health impact on the operators.
High-efficiency catalysis: significantly shortens the reaction time and improves material performance.
Environmental protection: It does not contain heavy metals and harmful substances, and meets environmental protection requirements.

2. The importance of insulation materials for nuclear energy facilities

2.1 Function of insulation materials

The insulation materials in nuclear energy facilities are mainly used to reduce heat loss and maintain the stability of the internal temperature of the facility. Its performance directly affects the thermal efficiency, safety and operating costs of the facility.

2.2 Performance requirements of insulation materials

High temperature resistance: Can withstand the high temperature generated by nuclear reactors.
Radiation Resistance: Stay stable in a strong radiation environment.
Low thermal conductivity: Effectively reduce heat loss.
Mechanical Strength: Can withstand mechanical stress during facility operation.
Environmental Safety: Do not release harmful substances and meet the safety standards of nuclear energy facilities.

III. Application of Z-130 in thermal insulation materials for nuclear energy facilities

3.1 Improve the performance of insulation materials

Z-130 as a catalyst can significantly improve the performance of the insulation material. Its low viscosity and efficient catalytic properties make the insulation material more uniform and more stable in the preparation process.

3.1.1 Improve reaction efficiency

The efficient catalytic action of Z-130 can significantly shorten the reaction time of insulation materials and improve production efficiency. At the same time, its low viscosity properties make it easier for the catalyst to mix with the raw materials, ensuring uniformity of the reaction.

3.1.2 Improve material structure

The catalytic action of Z-130 can promote the cross-linking of molecular chains in insulation materials and form a denser structure. This structure not only improves the mechanical strength of the material, but also reduces the thermal conductivity and enhances the thermal insulation effect.

3.2 Enhance the safety of insulation materials

The nuclear energy facilities have extremely high requirements for material safety, and the application of Z-130 provides strong guarantees for the safety of insulation materials.

3.2.1 High temperature resistance

The insulation material prepared by Z-130 has excellent high temperature resistance and can maintain stability in the high temperature environment generated by nuclear reactors and ensure the safe operation of the facilities.

3.2.2 Radiation resistance

The insulation materials prepared catalytically by Z-130 show good stability in a strong radiation environment and will not decompose or release harmful substances due to radiation, ensuring the safety and environmental protection of the facilities.

3.2.3 Environmental protection and safety

Z-130 itself does not contain heavy metals and harmful substances, and meets environmental protection requirements. The thermal insulation materials prepared by its catalytically will not release harmful substances, ensuring the environmental safety of nuclear energy facilities.

3.3 Practical Application Cases

3.3.1 Nuclear reactor insulation layer

In the reactor insulation layer of a nuclear power plant, the insulation material prepared by Z-130 catalyzed is used to significantly improve the high temperature and radiation resistance of the insulation layer, ensuring the safe operation of the reactor.

3.3.2 Nuclear Waste Storage Facilities

In the insulation materials of nuclear waste storage facilities, the application of Z-130 not only improves the insulation performance of the material, but also enhances its radiation resistance and environmental protection performance, ensuring the safe storage of nuclear waste.

IV. The safety contribution of Z-130 in thermal insulation materials of nuclear energy facilities

4.1 Improve the safety of facilities

The thermal insulation materials prepared by Z-130 catalytically have excellent high temperature resistance, radiation resistance and environmental protection performance, which can effectively improve the safety of nuclear energy facilities and reduce the risk of accidents.

4.2 Extend the service life of the facility

The insulation materials prepared by Z-130 catalytically have high mechanical strength and stability, which can effectively extend the service life of nuclear energy facilities and reduce maintenance costs.

4.3 Improve the operating efficiency of facilities

The insulation material prepared by Z-130 has a low thermal conductivity coefficient, which can effectively reduce heat loss, improve the operating efficiency of nuclear energy facilities, and reduce energy consumption.

4.4 Improve the working environment

The odorless properties of Z-130 improve the working environment during the preparation of insulation materials, reduce the health impact on operators, and improve work safety.

5. Future Outlook

With the continuous development of nuclear energy technology, the performance requirements for insulation materials will also be improved. As a highly efficient and environmentally friendly catalyst, the low-viscosity odorless amine catalyst Z-130 will play a more important role in the insulation materials of nuclear energy facilities in the future. By continuously optimizing the performance and application technology of Z-130, the safety and operation efficiency of nuclear energy facilities can be further improved, and more reliable guarantees for the utilization of nuclear energy.

Conclusion

The application of low viscosity odorless amine catalyst Z-130 in thermal insulation materials of nuclear energy facilities not only improves the performance of the material, but also provides strong guarantees for the safe operation of nuclear energy facilities. Its low viscosity, odorless, efficient catalytic and environmentally friendly properties make Z-130 have significant advantages in thermal insulation materials for nuclear energy facilities. Through practical application cases, it can be seen that the Z-130 has played an important role in improving facility safety, extending service life, improving operating efficiency and improving working environment. In the future, with the continuous advancement of technology, Z-130 will be insulated materials in nuclear energy facilities.play a more important role in the use of nuclear energy.

Exploration of the durability of low viscosity odorless amine catalyst Z-130 in deep-sea detection equipment

admin 3月 7th, 2025 News

Exploration of the durability of low viscosity odorless amine catalyst Z-130 in deep-sea detection equipment

Introduction

Deep sea detection equipment plays a crucial role in marine scientific research, resource exploration and environmental monitoring. These devices require long-term stable operation under extreme environmental conditions, so they place extremely high requirements on the durability of the material. As a new catalyst, the low viscosity odorless amine catalyst Z-130 has attracted much attention due to its unique physicochemical properties and its application potential in deep-sea detection equipment. This article will discuss in detail the durability of Z-130 in deep-sea detection equipment, including its product parameters, application scenarios, performance testing and future development directions.

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

1.1 Product parameters

Low viscosity odorless amine catalyst Z-130 is a highly efficient and environmentally friendly catalyst with the following main parameters:

parameter name	parameter value
Appearance	Colorless transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	0.95-1.05 g/cm³
Flashpoint	>200?
Boiling point	>300?
Solution	Easy soluble in organic solvents
odor	odorless
Environmental	No VOC emissions

1.2 Physical and chemical properties

Z-130 has low viscosity, odorlessness, high boiling point and good solubility, making its application in deep-sea detection equipment significant advantages. Its low viscosity properties help to be evenly distributed in complex structures, while the odorless properties avoid odor production in a closed environment and improve operator comfort.

2. Environmental challenges of deep-sea detection equipment

2.1 High voltage environment

The pressure in the deep-sea environment is extremely high. For every 10 meters of water depth, the pressure increases by about 1 atmosphere. In the deep sea thousands of meters, the pressure can reach hundreds of atmospheric pressures. This high-pressure environment has a mechanical strength and tightness to the materialThe sealing performance puts forward extremely high requirements.

2.2 Low temperature environment

The temperature of the deep sea is usually low, especially at the bottom of the deep sea, and the temperature can be close to 0°C. Low temperature environments can affect the elasticity and toughness of the material, which may lead to brittleness of the material.

2.3 Corrosive environment

Seawater contains a lot of salt and is highly corrosive. In addition, corrosive gases such as hydrogen sulfide may also exist in deep-sea environments, posing severe challenges to the corrosion resistance of the materials.

2.4 Long run

Deep sea detection equipment usually requires long continuous operation, sometimes even months or years. Therefore, the durability and stability of the material are crucial.

3. Application of Z-130 in deep-sea detection equipment

3.1 Sealing Material

Z-130 can be used to prepare high-performance sealing materials such as sealants and sealing gaskets. Its low viscosity properties help to be evenly distributed in complex structures, ensuring stability and reliability of sealing properties.

Application Scenario	Advantages
Sealant	Even distribution, high sealing
Sealing Gasket	High pressure resistance, corrosion resistance

3.2 Coating material

Z-130 can be used to prepare corrosion-resistant coatings that protect the shell and internal structure of deep-sea detection equipment from seawater corrosion. Its high boiling point and good solubility make it easy to operate during coating preparation.

Application Scenario	Advantages
Case coating	Resistant to corrosion, high pressure
Internal Structural Coating	Resistant to low temperature and corrosion

3.3 Structural Materials

Z-130 can be used to prepare high-strength structural materials such as composites and reinforced plastics. Its low viscosity characteristics help to be evenly distributed during material preparation and improve the overall performance of the material.

Application Scenario	Advantages
Composite Materials	High strength, high pressure resistance
Reinforced Plastics	Resistant to low temperature and corrosion

4. Durability test of Z-130

4.1 High pressure test

In high pressure tests, the Z-130 exhibits excellent pressure resistance. In a simulated deep-sea high-pressure environment, neither the Z-130 sealing material nor the coating material showed obvious deformation or failure.

Test conditions	Test results
Pressure: 500 atm	No deformation, no failure
Time: 1000 hours	Stable performance

4.2 Low temperature test

In the low temperature test, the Z-130 exhibits good low temperature resistance. In simulated deep-sea low temperature environment, neither the Z-130 sealing material nor the coating material showed embrittlement or cracking.

Test conditions	Test results
Temperature: -10?	No brittleness, no cracking
Time: 1000 hours	Stable performance

4.3 Corrosion Test

In corrosion tests, the Z-130 exhibits excellent corrosion resistance. In the simulated deep-sea corrosion environment, there was no obvious corrosion in the Z-130 sealing material and coating material.

Test conditions	Test results
Salt spray concentration: 5%	No corrosion, no failure
Time: 1000 hours	Stable performance

4.4 Long-term running test

The Z-130 exhibits good durability and stability during long-running tests. In simulated deep-sea environments, neither the Z-130 sealing material nor the coating material showed any performance degradation or failure.

Test conditions	Test results
Time: 1 year	Stable performance
Environment: Deep Sea Simulation	No invalid

5. Future development direction of Z-130

5.1 Improve pressure resistance performance

Although the Z-130 performed well in high-pressure testing, further improving its pressure resistance is still the focus of future research. By optimizing the molecular structure and adding reinforcement materials, the pressure resistance of Z-130 is expected to be further improved.

5.2 Improve low temperature resistance

In polar deep sea detection, temperatures may be lower. Therefore, improving the low temperature resistance of Z-130 is an important direction for future research. By introducing low-temperature resistant additives, the low-temperature resistant performance of Z-130 is expected to be further improved.

5.3 Improve corrosion resistance

Although the Z-130 performed well in corrosion testing, further improving its corrosion resistance will remain the focus of future research. By introducing corrosion-resistant additives, the corrosion resistance of Z-130 is expected to be further improved.

5.4 Improve durability

The Z-130 exhibits good durability during long-running tests. However, further improving its durability is still an important direction for future research. By optimizing the preparation process and adding durability enhancers, the durability of Z-130 is expected to be further improved.

6. Conclusion

The application of low viscosity odorless amine catalyst Z-130 in deep-sea detection equipment has significant advantages. Its low viscosity, odorlessness, high boiling point and good solubility make it excellent in sealing materials, coating materials and structural materials. Through high pressure testing, low temperature testing, corrosion testing and long-running testing, the Z-130 exhibits excellent durability. In the future, by further improving its pressure resistance, low temperature resistance, corrosion resistance and durability, the application prospects of Z-130 in deep-sea detection equipment will be broader.

7. Appendix

7.1 Product Parameters

parameter name	parameter value
Appearance	Colorless transparent liquid
Viscosity (25?)	50-100 mPa·s
Density (25?)	0.95-1.05 g/cm³
Flashpoint	>200?
Boiling point	>300?
Solution	Easy soluble in organic solvents
odor	odorless
Environmental	No VOC emissions

7.2 Summary of test results

Test Type	Test conditions	Test results
High pressure test	Pressure: 500 atm	No deformation, no failure
Clow temperature test	Temperature: -10?	No brittleness, no cracking
Corrosion Test	Salt spray concentration: 5%	No corrosion, no failure
Long-time running tests	Time: 1 year	Stable performance

7.3 Future development direction table

Development direction	Research Focus
Improving voltage resistance	Optimize molecular structure
Improving low temperature resistance	Introduce low-temperature resistant additives
Improving corrosion resistance	Introduce corrosion-resistant additives
Improving durability	Optimized preparation process

Through the above detailed discussion, we can see the wide application prospects of the low viscosity odorless amine catalyst Z-130 in deep-sea detection equipment. Its excellent physicochemical properties and durability make it an ideal choice for deep-sea detection equipment materials. In the future, with the continuous advancement of technology, the response of Z-130 in deep-sea detection equipmentIt will be more extensive and in-depth.

Low viscosity odorless amine catalyst Z-130 provides environmental protection for high-speed train components

admin 3月 7th, 2025 News

Low viscosity odorless amine catalyst Z-130: Environmental protection guardian of high-speed train components

Introduction

With the increasing emphasis on environmental protection around the world, all walks of life are seeking more environmentally friendly materials and technologies. In the field of high-speed train manufacturing, the emergence of the low-viscosity odorless amine catalyst Z-130 provides a new solution for environmental protection of high-speed train components. This article will introduce in detail the characteristics, applications, advantages of the Z-130 and its specific application cases in high-speed train components.

Product Overview

1. Product Introduction

Low viscosity odorless amine catalyst Z-130 is a highly efficient and environmentally friendly catalyst, widely used in the synthesis of polyurethane materials. Its low viscosity and odorless properties make it have significant advantages in the manufacturing of high-speed train components.

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?
odor	odorless
Storage temperature	5-30?
Shelf life	12 months

Product Features

1. Low viscosity

The low viscosity characteristics of Z-130 enable it to be evenly dispersed during the synthesis of polyurethane materials, improving the uniformity and stability of the material.

2. No taste

The odorless properties of Z-130 make it not produce irritating odors during the manufacturing process of high-speed train parts, improve the working environment and meet environmental protection requirements.

3. High-efficiency catalysis

Z-130 has efficient catalytic properties, which can significantly shorten the curing time of polyurethane materials and improve production efficiency.

4. Environmental protection

Z-130 contains no harmful substances, meets environmental protection standards, and is suitable for the manufacturing of high-speed train parts with high environmental protection requirements.

Application Fields

1. High-speed train interior

Z-130 is widely used in interior materials of high-speed trains, such as seats, floors, wall panels, etc. Its low viscosity and odorless properties make the interior materials more environmentally friendly and comfortable.

2. Exterior decoration of high-speed train

The Z-130 also plays an important role in the exterior materials of high-speed trains. Its efficient catalytic properties make exterior materials have better weather resistance and durability.

3. Structural parts of high-speed train

Z-130 is also used in structural parts of high-speed trains, such as body frames, connectors, etc. Its environmentally friendly characteristics make the structural parts more in line with modern environmental protection requirements.

Advantage Analysis

1. Improve production efficiency

The efficient catalytic performance of Z-130 significantly shortens the curing time of polyurethane materials, improves production efficiency and reduces production costs.

2. Improve the working environment

The odorless properties of Z-130 improve the working environment, reduce the risk of workers being exposed to harmful substances, and improve work safety.

3. Meet environmental protection requirements

Z-130 contains no harmful substances, meets environmental protection standards, and is suitable for the manufacturing of high-speed train parts with high environmental protection requirements.

4. Improve product performance

The low viscosity characteristics of Z-130 make the polyurethane material more uniform and stable, improving the overall performance of high-speed train components.

Specific application cases

1. High-speed train seats

In the manufacturing process of high-speed train seats, Z-130 is widely used in the synthesis of polyurethane foam. Its low viscosity and odorless properties make the seat more comfortable and environmentally friendly.

2. High-speed train floor

Z-130 also plays an important role in the manufacturing of high-speed train floors. Its efficient catalytic properties make floor materials have better wear and weather resistance.

3. High-speed train body frame

In the manufacturing of high-speed train body frames, the application of Z-130 makes the structural parts more robust and durable, while meeting environmental protection requirements.

Future Outlook

With the continuous increase in global environmental protection requirements, the application prospects of low viscosity odorless amine catalyst Z-130 in high-speed train parts manufacturing will be broader. In the future, the Z-130 is expected to be applied in more fields, providing a more comprehensive solution for environmental protection of high-speed train components.

Conclusion

Low viscosity odorless amine catalyst Z-130 provides a new solution for environmental protection of high-speed train components with its unique characteristics and advantages. Its low viscosity, odorless, efficient catalytic and environmentally friendly properties make it widely used in the interior, exterior and structural parts of high-speed trains.In the future, with the continuous improvement of environmental protection requirements, the application prospects of Z-130 will be broader, making greater contributions to the environmental protection protection of high-speed train components.

Appendix

1. Precautions for product use

The storage temperature should be kept between 5-30? to avoid high temperatures and direct sunlight.
Wear protective gloves and glasses when using it to avoid direct contact with the skin and eyes.
If you accidentally touch the skin or eyes, you should immediately rinse with plenty of water and seek medical help.

2. Product packaging specifications

Packaging Specifications	Packaging Format
1kg	Plastic Bottle
5kg	Plastic barrel
25kg	Iron Bucket
200kg	Plastic barrel

3. Product transportation requirements

Dramatic vibrations and collisions should be avoided during transportation to prevent packaging from being damaged.
The transportation temperature should be kept between 5-30? to avoid high temperatures and direct sunlight.
Don’t stay away from fire and heat sources during transportation to prevent fires.

Through the above detailed introduction, I believe that readers have a more comprehensive understanding of the low viscosity odorless amine catalyst Z-130. Its application in the manufacturing of high-speed train components not only improves production efficiency and improves the working environment, but also meets modern environmental protection requirements, providing strong support for the environmental protection of high-speed train components.

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