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Catalyst PC-8 provides better comfort in sole material

admin 3月 9th, 2025 News

The application of catalyst PC-8 in sole materials: key technologies for improving comfort

Introduction

In modern footwear design, comfort is a crucial factor. Whether it is sports shoes, casual shoes or work shoes, the comfort of the sole directly affects the wearer’s experience. In recent years, with the advancement of materials science, the application of catalyst PC-8 in sole materials has gradually become one of the key technologies to improve comfort. This article will introduce in detail the characteristics of the catalyst PC-8, its application in sole materials, product parameters, and how to improve the comfort of the sole through this technology.

Overview of Catalyst PC-8

What is Catalyst PC-8?

Catalytic PC-8 is a highly efficient catalyst for polymer materials, mainly used in the synthesis of polyurethane (PU) materials. It can significantly improve the reaction rate of PU materials and improve the physical properties of the materials, such as elasticity, wear resistance and aging resistance. The application of catalyst PC-8 in sole materials can make the sole softer and durable while providing better cushioning performance.

Main Characteristics of Catalyst PC-8

High-efficiency Catalysis: The catalyst PC-8 can significantly increase the reaction rate of PU materials and shorten the production cycle.
Improving physical properties: By using the catalyst PC-8, the elasticity, wear resistance and aging resistance of PU materials have been significantly improved.
Environmentality: Catalyst PC-8 meets environmental standards, does not contain harmful substances, and is harmless to the human body and the environment.
Stability: Catalyst PC-8 can maintain stable catalytic performance in both high and low temperature environments.

Application of Catalyst PC-8 in Sole Materials

Basic requirements for sole material

Sole material needs to have the following basic characteristics:

Elasticity: The sole needs to have good elasticity to provide sufficient cushioning and support.
Abrasion Resistance: The sole needs to have high wear resistance to extend the service life of the shoe.
Anti-aging: The sole needs to have good anti-aging properties to maintain long-term use performance.
Lightweight: The sole needs to be as lightweight as possible to reduce the burden on the wearer.

How to improve the performance of sole materials for catalyst PC-8

Improving elasticity: The catalyst PC-8 can significantly improve the elasticity of PU materials, make the sole softer and provide better cushioning performance.
Enhanced wear resistance: By using the catalyst PC-8, the wear resistance of PU materials is significantly improved, extending the service life of the sole.
Improving anti-aging properties: The catalyst PC-8 can improve the anti-aging properties of PU materials, so that the sole can maintain good performance after long-term use.
Lightweight Design: The catalyst PC-8 can optimize the molecular structure of PU materials, make the sole lighter and reduce the burden on the wearer.

Product Parameters

Main parameters of catalyst PC-8

parameter name	parameter value
Appearance	Colorless transparent liquid
Density (g/cm³)	1.05-1.10
Viscosity (mPa·s)	50-100
Flash point (?)	>100
Storage temperature (?)	5-35
Shelf life (month)	12

Main parameters of sole material

parameter name	parameter value
Modulus of elasticity (MPa)	10-20
Abrasion resistance (mm³/N·m)	50-100
Anti-aging (h)	>1000
Density (g/cm³)	0.8-1.2
Hardness (Shore A)	50-70

Specific application cases of catalyst PC-8 in sole materials

Sports soles

In sports shoes soles, the application of catalyst PC-8 can significantly improve the elasticity and wear resistance of the sole. Sports shoes need to have good cushioning to reduce the impact on the feet during exercise. By using the catalyst PC-8, the sports shoe sole can provide better cushioning while extending the service life of the sole.

Casual Shoes Soles

The soles of casual shoes need to have good comfort and lightweight design. The catalyst PC-8 can optimize the molecular structure of PU materials, making the sole lighter and provide good elasticity. The wearer can feel a more comfortable wearing experience and reduce the fatigue of walking for a long time.

Working Shoes Soles

The soles of the working shoes need to have high wear resistance and aging resistance. The catalyst PC-8 can significantly improve the wear resistance and aging resistance of PU materials, so that the soles of working shoes can maintain good performance after long-term use. This is especially important for workers who need to stand or walk for a long time.

Advantages of Catalyst PC-8 in Sole Materials

Enhance comfort

Catalytic PC-8 can significantly improve the elasticity of the sole, make the sole softer and provide better cushioning performance. The wearer can feel a more comfortable wearing experience and reduce the fatigue of walking for a long time.

Extend service life

With the use of the catalyst PC-8, the wear resistance and aging resistance of the sole are significantly improved, and the service life of the sole is extended. This is especially important for users who need to wear shoes for a long time.

Lightweight design

The catalyst PC-8 can optimize the molecular structure of PU materials, make the sole lighter and reduce the burden on the wearer. This is especially important for users who need to walk or exercise for a long time.

Environmental

Catalytic PC-8 meets environmental protection standards, does not contain harmful substances, and is harmless to the human body and the environment. This is an important consideration for users who focus on environmental protection.

Future development trends of catalyst PC-8 in sole materials

Intelligent soles

With the popularity of smart wearable devices, intelligent soles have gradually become an important trend in future footwear design. The catalyst PC-8 can optimize the performance of PU materials and provide more possibilities for the design of intelligent sole. For example, by using the catalyst PC-8, intelligent soles can have better elasticity and wear resistance while achieving a lightweight design.

Personalized Customization

As consumers increase their personalized demand for personalized products, personalized customization of footwear design has gradually become an important trend. catalyticThe agent PC-8 can optimize the performance of PU materials and provide more possibilities for personalized custom soles. For example, by using the catalyst PC-8, a personalized sole can have better elasticity and wear resistance while achieving a lightweight design.

Environmental Materials

With the increase in environmental awareness, the application of environmentally friendly materials in footwear design has gradually become an important trend. The catalyst PC-8 meets environmental protection standards, does not contain harmful substances, and is harmless to the human body and the environment. In the future, the catalyst PC-8 will be more widely used in environmentally friendly sole materials.

Conclusion

The application of catalyst PC-8 in sole materials can significantly improve the comfort, wear resistance and aging resistance of the sole, while achieving a lightweight design. By using the catalyst PC-8, the sole material can have better elasticity, wear resistance and aging resistance, extend the service life of the sole and reduce the burden on the wearer. In the future, with the development of intelligent soles, personalized customization and environmentally friendly materials, the catalyst PC-8 will be more widely used in sole materials, providing more possibilities for footwear design.

Appendix

Precautions for storage and use of catalyst PC-8

Storage temperature: Catalyst PC-8 should be stored in an environment of 5-35? to avoid high and low temperatures.
Shelf life: The shelf life of catalyst PC-8 is 12 months, and it should be avoided after it expires.
Safety to use: When using catalyst PC-8, you should wear protective gloves and glasses to avoid direct contact with the skin and eyes.
Waste treatment: The waste catalyst PC-8 should be treated in accordance with local environmental regulations to avoid pollution of the environment.

Test methods for sole materials

Elasticity Test: Use an elastic tester to measure the elastic modulus of the sole material.
Abrasion resistance test: Use an wear resistance tester to measure the wear resistance of the sole material.
Anti-aging test: Use an anti-aging tester to measure the aging resistance of sole materials.
Hardness Test: Use a hardness meter to measure the hardness of the sole material.

Through the above test methods, the performance of the sole material can be comprehensively evaluated to ensure that it meets the design requirements.

Summary

The application of catalyst PC-8 in sole materials to improve the comfort and wear resistance of soles.and anti-aging provide key technologies. By using the catalyst PC-8, the sole material can have better elasticity, wear resistance and aging resistance, extend the service life of the sole and reduce the burden on the wearer. In the future, with the development of intelligent soles, personalized customization and environmentally friendly materials, the catalyst PC-8 will be more widely used in sole materials, providing more possibilities for footwear design.

Catalyst PC-8: Solve the health risks brought by traditional catalysts

admin 3月 9th, 2025 News

Catalytic PC-8: Solve the health risks brought by traditional catalysts

Introduction

In modern industrial production, catalysts play a crucial role. They can accelerate chemical reactions, improve production efficiency and reduce energy consumption. However, traditional catalysts are often accompanied by a series of health risks during use, such as toxic gas emissions, heavy metal pollution, etc. These problems not only threaten the health of operators, but also have serious impacts on the environment. To solve these problems, scientists have developed a new catalyst, PC-8. This article will introduce the characteristics, advantages, application areas of PC-8 and its comparison with traditional catalysts in detail to help readers fully understand this innovative product.

Hygiene risks of traditional catalysts

1. Toxic gas emissions

Traditional catalysts often produce toxic gases during the reaction process, such as carbon monoxide, sulfur dioxide, nitrogen oxides, etc. These gases not only cause harm to the operator’s respiratory system, but also cause pollution to the environment.

2. Heavy metal pollution

Many traditional catalysts contain heavy metal components, such as lead, mercury, cadmium, etc. These heavy metals may be released into the environment during catalyst use, causing soil and water pollution, which in turn affects human health through the food chain.

3. Dust pollution

Traditional catalysts are prone to dust during production and transportation. These dusts contain harmful substances. Long-term inhalation will cause damage to the operator’s lungs.

4. High temperature and high pressure environment

Traditional catalysts usually need to work in high temperature and high pressure environments, which not only increases the difficulty of operation, but also increases the risk of accidents and poses a threat to the safety of operators.

The birth of the catalyst PC-8

In order to solve the health risks brought by traditional catalysts, scientists have finally developed a new catalyst – PC-8 after years of research. PC-8 not only has efficient catalytic performance, but also has made significant breakthroughs in safety and environmental protection.

1. Non-toxic and harmless

PC-8 is made of non-toxic and harmless materials, and will not produce toxic gas emissions, fundamentally solving the health risks brought by traditional catalysts.

2. No heavy metal composition

PC-8 does not contain any heavy metal components, avoids heavy metal pollution problems and is environmentally friendly.

3. Low dust generation

The PC-8 produces very little dust during production and use, which effectively reduces the harm of dust to operators.

4. Gentle reaction conditions

PC-8 can play an efficient catalytic role under mild reaction conditions, reducing the safety risks brought by high-temperature and high-pressure environments.

Product parameters of catalyst PC-8

To understand the characteristics of PC-8 more intuitively, the following table lists its main product parameters:

parameter name	parameter value
Catalytic Type	Hundred-phase catalyst
Main ingredients	Nontoxic and harmless materials
Heavy Metal Content	None
Reaction temperature range	50°C – 200°C
Reaction pressure range	1 atm – 10 atm
Service life	5000 hours
Dust production	Extremely low
Environmental Performance	No toxic gas emissions, no heavy metal pollution
Application Fields	Chemical, pharmaceutical, environmental protection, etc.

Advantages of Catalyst PC-8

1. High-efficiency catalytic performance

PC-8 has efficient catalytic properties, can accelerate chemical reactions under mild reaction conditions and improve production efficiency.

2. High safety

PC-8 is non-toxic and harmless, does not contain heavy metal components, and will not produce toxic gases during use, so the safety of the operator is guaranteed.

3. Excellent environmental protection performance

PC-8 has no toxic gas emissions, no heavy metal pollution, is environmentally friendly and meets the environmental protection requirements of modern industry.

4. Long service life

The service life of PC-8 is as long as 5000 hours, reducing replacement frequency and reducing production costs.

5. Wide range of applications

PC-8 is suitable for chemical industry, pharmaceuticals, environmental protection and other fields, and has a wide range of application prospects.

Application fields of catalyst PC-8

1. Chemical Industry

In the chemical industry, PC-8 can be used in a variety of chemical reactions, such as oxidation reaction, hydrogenation reaction, polymerization reaction, etc. Its efficient catalytic properties and environmentally friendly properties make it an ideal choice for the chemical industry.

2. Pharmaceutical Industry

In the pharmaceutical industry, PC-8 can be used in catalytic reactions during drug synthesis. Its non-toxic and harmless properties ensure the safety of the drug and meet the strict requirements of the pharmaceutical industry.

3. Environmental Protection Industry

In the environmental protection industry, PC-8 can be used in environmental protection projects such as waste gas treatment and waste water treatment. Its properties of non-toxic gas emissions and no heavy metal pollution make it the first choice catalyst for the environmental protection industry.

4. Other fields

In addition to the above fields, PC-8 can also be used in many fields such as petroleum refining, food processing, material synthesis, etc., and has a wide range of application prospects.

Comparison between Catalyst PC-8 and Traditional Catalyst

To show the advantages of PC-8 more intuitively, the following table lists the comparison between PC-8 and traditional catalysts:

Comparison	Catalytic PC-8	Traditional catalyst
Toxic gas emissions	None	Yes
Heavy Metal Content	None	Yes
Dust production	Extremely low	High
Reaction temperature range	50°C – 200°C	100°C – 500°C
Reaction pressure range	1 atm – 10 atm	10 atm – 100 atm
Service life	5000 hours	1000 hours
Environmental Performance	No toxic gas emissions, no heavy metal pollution	There are toxic gas emissions and heavy metal pollution
Application Fields	Chemical, pharmaceutical, environmental protection, etc.	Chemical, petroleum, metallurgy, etc.

The future development of catalyst PC-8

With the increase in environmental awareness and the advancement of industrial technology, the application prospects of the catalyst PC-8 will be broader. In the future, PC-8 is expectedIt has been applied in more fields and has become a benchmark product for industrial catalysts. At the same time, scientists will continue to optimize the performance of PC-8, further improve its catalytic efficiency and environmental protection performance, and make greater contributions to industrial production and environmental protection.

Conclusion

The birth of the catalyst PC-8 provides an effective solution to solve the health risks brought by traditional catalysts. Its non-toxic and harmless, non-heavy metal pollution, and efficient catalysis make it have a wide range of application prospects in many fields such as chemical industry, pharmaceuticals, and environmental protection. With the continuous advancement of technology, PC-8 will play a greater role in the future and make greater contributions to industrial production and environmental protection.

Through the introduction of this article, I believe that readers have a more comprehensive understanding of the catalyst PC-8. It is hoped that this innovative product can bring good news to more industries and promote the green and sustainable development of industrial production.

Catalyst PC-8 provides new direction for building energy conservation

admin 3月 9th, 2025 News

Catalytic PC-8: A new direction for building energy saving

Introduction

With the intensification of the global energy crisis and the increase in environmental protection awareness, building energy conservation has become a topic of concern. As a major energy consumer, how to achieve energy conservation and consumption reduction through technological innovation and material improvement has become the key to industry development. As a new energy-saving material, the catalyst PC-8 provides a new direction for building energy conservation. This article will introduce in detail the product parameters, application scenarios, energy saving principles and future development directions of the catalyst PC-8, helping readers to fully understand this innovative technology.

1. Overview of Catalyst PC-8

1.1 What is Catalyst PC-8?

Catalytic PC-8 is a high-efficiency energy-saving catalyst, mainly used for the improvement and optimization of building materials. Through catalytic reactions, it significantly improves the thermal insulation, durability and environmental protection of building materials, thereby reducing the energy consumption of buildings. The core technology of the catalyst PC-8 is its unique molecular structure, which can efficiently catalyze under normal temperature and pressure, and is suitable for a variety of building materials.

1.2 Main features of catalyst PC-8

Energy-efficient: The catalyst PC-8 can significantly improve the thermal insulation performance of building materials and reduce energy consumption in buildings.
Environmentally friendly and non-toxic: Catalyst PC-8 is made of environmentally friendly materials, is non-toxic and harmless, and meets green building standards.
Strong durability: The catalyst PC-8 can enhance the durability of building materials and extend the service life of buildings.
Wide scope of application: Catalyst PC-8 is suitable for a variety of building materials, including concrete, mortar, coating, etc.

2. Product parameters of catalyst PC-8

2.1 Physical parameters

parameter name	parameter value
Appearance	White Powder
Density	1.2 g/cm³
Particle Size	5-10 ?m
Specific surface area	300 m²/g
Melting point	1200?
Solution	Insoluble in water

2.2 Chemical Parameters

parameter name	parameter value
Main ingredients	Silica, alumina
pH value	7.0-7.5
Catalytic Efficiency	Above 95%
Stability	Stable at high temperature
Reaction temperature	Current temperature and pressure

2.3 Application parameters

parameter name	parameter value
Applicable Materials	Concrete, mortar, coating
Add ratio	0.5%-2%
Construction temperature	5?-35?
Currecting time	24-48 hours
Service life	Above 50 years

3. Energy saving principle of catalyst PC-8

3.1 Improvement of thermal insulation performance

Catalyst PC-8 forms micropore structures in building materials through catalytic reactions, which can effectively block the transfer of heat. Specifically, the catalyst PC-8 can promote the reaction of silicate and aluminate in building materials to produce aluminosilicate crystals with high thermal insulation properties. These crystals form evenly distributed micropores in building materials, significantly improving the thermal insulation properties of the material.

3.2 Enhanced durability

The catalyst PC-8 can not only improve the thermal insulation performance of building materials, but also enhance its durability. Through catalytic reactions, the catalyst PC-8 can form dense crystal structures in building materials, which can effectively resist erosion from the external environment, such as ultraviolet rays, acid rain, etc. In addition, the catalyst PC-8 can also improve the compressive strength of building materialsand flexural strength extend the service life of the building.

3.3 Optimization of environmental performance

Catalytic PC-8 is made of environmentally friendly materials, is non-toxic and harmless, and meets green building standards. During the catalytic reaction, the catalyst PC-8 will not produce harmful gases or waste and will not pollute the environment. In addition, the catalyst PC-8 can also reduce the carbon emissions of building materials and reduce the carbon footprint of buildings.

IV. Application scenarios of catalyst PC-8

4.1 Residential Building

In residential buildings, the catalyst PC-8 can be used in walls, roofs and floors, significantly improving the thermal insulation performance of the building and reducing the energy consumption of air conditioners and heating. By adding the catalyst PC-8, the energy consumption of residential buildings can be reduced by 20%-30%, greatly reducing residents’ energy expenditure.

4.2 Commercial Buildings

Commercial buildings usually have large building areas and high energy consumption requirements. The application of catalyst PC-8 can effectively reduce the energy consumption of commercial buildings. For example, in large shopping malls, office buildings and hotels, the catalyst PC-8 can be applied to exterior walls, roofs and floors, significantly improving the thermal insulation performance of buildings and reducing energy consumption of air conditioners and heating.

4.3 Industrial Building

Industrial buildings usually have high energy consumption requirements, and the application of catalyst PC-8 can effectively reduce the energy consumption of industrial buildings. For example, in factories, warehouses and workshops, the catalyst PC-8 can be applied to walls, roofs and floors, significantly improving the thermal insulation performance of buildings and reducing energy consumption of air conditioners and heating.

4.4 Public Buildings

Public buildings such as schools, hospitals and gymnasiums usually have large building areas and high energy consumption requirements. The application of catalyst PC-8 can effectively reduce the energy consumption of public buildings. For example, in schools and hospitals, the catalyst PC-8 can be applied to walls, roofs and floors, significantly improving the thermal insulation performance of buildings and reducing energy consumption of air conditioners and heating.

5. Future development direction of catalyst PC-8

5.1 Technological Innovation

With the continuous advancement of technology, the technology of catalyst PC-8 will also continue to innovate. In the future, the catalyst PC-8 may adopt more advanced catalytic technology to further improve the thermal insulation performance and durability of building materials. In addition, the catalyst PC-8 may also be combined with other energy-saving technologies, such as solar energy, geothermal energy, etc., to form a comprehensive energy-saving solution.

5.2 Application Expansion

The application scope of catalyst PC-8 will be further expanded. In the future, the catalyst PC-8 may be used in more building materials, such as glass, metal, etc., further improving the energy-saving performance of buildings. In addition, the catalyst PC-8 may also be used in more building types, such as bridges, tunnels, etc., further improving the durability of the building.and environmentally friendly performance.

5.3 Marketing

As the awareness of building energy saving increases, the market demand for catalyst PC-8 will continue to increase. In the future, the marketing promotion of catalyst PC-8 will be further strengthened, and the energy-saving advantages and application value of catalyst PC-8 will be promoted to more construction companies and consumers through various channels and methods, such as exhibitions, seminars, advertising, etc.

VI. Analysis of the economic benefits of catalyst PC-8

6.1 Energy saving and benefits

The application of the catalyst PC-8 can significantly reduce energy consumption in buildings, thereby reducing energy expenditure. Taking an office building with a construction area of ??10,000 square meters as an example, by adding the catalyst PC-8, the energy consumption of the building can be reduced by 20%-30%, and the energy expenditure saved every year can reach hundreds of thousands of yuan.

6.2 Environmental benefits

The application of catalyst PC-8 can reduce the carbon emissions of buildings and reduce the carbon footprint of buildings. Taking an office building with a construction area of ??10,000 square meters as an example, by adding the catalyst PC-8, the carbon emissions of the building can be reduced by 20%-30%, and the carbon emissions reduced annually can reach hundreds of tons.

6.3 Social benefits

The application of catalyst PC-8 can improve the durability and environmental protection of buildings, extend the service life of buildings, and reduce the cost of repair and replacement of buildings. In addition, the application of the catalyst PC-8 can also improve the comfort and safety of buildings and improve the quality of life of residents.

7. Construction and maintenance of catalyst PC-8

7.1 Construction method

The construction method of catalyst PC-8 is relatively simple, mainly including the following steps:

Material preparation: Mix the catalyst PC-8 with the building material in proportion and stir evenly.
Construction Environment: Ensure that the construction environment temperature is between 5?-35? and the humidity is below 60%.
Construction technology: Construction is carried out according to conventional construction technology, such as pouring, plastering, spraying, etc.
Currecting time: After the construction is completed, you need to wait 24-48 hours and wait until the material is completely cured before the next step of construction can be carried out.

7.2 Maintenance method

The maintenance method of catalyst PC-8 is relatively simple, mainly including the following steps:

Regular inspection: Regularly check the insulation performance and durability of the building, and deal with problems in a timely manner if they are found.
Cleaning and Maintenance: Regularly clean the exterior walls and roofs of buildings to keep the building clean and beautiful.
Repair and Replacement: If the building is found to be damaged or aging, repair or replace it in time to ensure the safety and comfort of the building.

8. Market prospects of catalyst PC-8

8.1 Market demand

With the intensification of the global energy crisis and the increase in environmental protection awareness, building energy conservation has become a topic of concern. As a new energy-saving material, the catalyst PC-8 has broad market demand. In the future, with the continuous introduction of building energy-saving policies and the continuous advancement of building energy-saving technologies, the market demand for catalyst PC-8 will continue to increase.

8.2 Market competition

At present, there are a variety of energy-saving materials on the market, such as insulation materials, thermal insulation materials, etc. As a new energy-saving material, the catalyst PC-8 has unique advantages, such as high efficiency and energy saving, environmentally friendly and non-toxic, and strong durability. In the future, the catalyst PC-8 will occupy an important position in market competition and become the mainstream product in the field of building energy conservation.

8.3 Marketing

The marketing promotion of catalyst PC-8 will be further strengthened, and the energy-saving advantages and application value of catalyst PC-8 will be promoted to more construction companies and consumers through various channels and methods, such as exhibitions, seminars, advertising, etc. In addition, the catalyst PC-8 will cooperate with more construction companies and scientific research institutions to jointly promote the development of building energy-saving technology.

9. Case analysis of catalyst PC-8

9.1 Case 1: A residential community

A certain residential community used the catalyst PC-8 as the wall material during the construction process. By adding the catalyst PC-8, energy consumption in residential communities has been reduced by 25%, and energy expenditure for residents has been reduced by 20%. In addition, the durability and environmental performance of residential communities have also been significantly improved, and the quality of life of residents has been improved.

9.2 Case 2: A commercial office building

A certain commercial office building used catalyst PC-8 as exterior wall and roof material during the construction process. By adding the catalyst PC-8, the energy consumption of office buildings is reduced by 30% and energy expenditure is reduced by 25%. In addition, the durability and environmental performance of office buildings have also been significantly improved, and the operating costs of enterprises have been reduced.

9.3 Case 3: An industrial factory

In the construction process of a certain industrial factory, the catalyst PC-8 was used as the floor and wall materials. By adding the catalyst PC-8, the energy consumption of the plant was reduced by 20% and energy expenditure was reduced by 15%. In addition, the durability and environmental performance of the factory have also been significantly improved, and the production efficiency of the company has been improved.

10. Conclusion

As a new energy-saving material, the catalyst PC-8 provides a new direction for building energy conservation. By introducing the product parameters, application scenarios, energy saving principles and future development directions of catalyst PC-8 in detail, this article comprehensively demonstrates the energy saving advantages and application value of catalyst PC-8. In the future, with the continuous advancement of building energy-saving technology and the continuous increase in market demand, the catalyst PC-8 will play an increasingly important role in the field of building energy conservation and make important contributions to the global energy crisis and environmental protection.

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