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The environmental advantages of low-odor catalyst ZR-40 in high-end home products

admin 3月 7th, 2025 News

The environmental advantages of low-odor catalyst ZR-40 in high-end home products

Introduction

As people’s attention to environmental protection and health continues to increase, the environmental performance of high-end home products has become an important factor in consumer choice. As a new environmentally friendly material, the low-odor catalyst ZR-40 has gradually been widely used in home products due to its excellent performance and environmental advantages. This article will introduce in detail the environmental advantages, product parameters and their application in high-end home products.

1. Environmental protection advantages of low-odor catalyst ZR-40

1.1 Low Volatile Organic Compounds (VOC) Emissions

The emissions of volatile organic compounds (VOCs) in the process of production and application of ZR-40 catalysts are extremely low. VOC is one of the main sources of indoor air pollution. Long-term exposure to high concentrations of VOC will have serious impacts on human health. The low VOC emission characteristics of the ZR-40 make it an ideal choice for high-end home products.

1.2 Non-toxic and harmless

ZR-40 catalyst does not contain harmful substances, such as formaldehyde, benzene, etc., and is harmless to the human body and the environment. This makes home products using ZR-40 safer, especially suitable for families with children and the elderly.

1.3 High-efficiency catalytic performance

ZR-40 has efficient catalytic properties, can achieve efficient reactions at lower temperatures and reduce energy consumption. This not only reduces production costs, but also reduces the burden on the environment.

1.4 Long service life

ZR-40 catalyst has a long service life, reducing the frequency of replacement and reducing waste generation. This is in line with the philosophy of sustainable development and helps reduce resource waste and environmental pollution.

2. Product parameters of ZR-40

2.1 Physical Properties

parameter name	Value/Description
Appearance	White Powder
Density	1.2 g/cm³
Melting point	200°C
Solution	Insoluble in water, soluble in organic solvents

2.2 Chemical Properties

parameter name	Value/Description
Chemical Stability	High
Acidal and alkali resistance	Good
Catalytic Efficiency	Above 95%
VOC emissions	<10 mg/m³

2.3 Environmental performance

parameter name	Value/Description
Non-toxic and harmless	Yes
Degradability	Biodegradable
Recycling and Utilization Rate	Above 90%

III. Application of ZR-40 in high-end home products

3.1 Furniture Manufacturing

The application of ZR-40 catalyst in furniture manufacturing is mainly reflected in coatings and adhesives. Traditional coatings and adhesives contain a large amount of VOC, while coatings and adhesives using ZR-40 greatly reduce VOC emissions and improve the environmental performance of furniture.

3.1.1 Coating

Traditional paint	ZR-40 coating
VOC emissions are high	VOC emissions are extremely low
Contains harmful substances	Non-toxic and harmless
Short service life	Long service life

3.1.2 Adhesive

Traditional Adhesives	ZR-40 Adhesive
VOC emissions are high	VOC emissions are extremely low
Contains harmful substances	Non-toxic and harmless
StickyLow connection strength	High bonding strength

3.2 Flooring Materials

The application of ZR-40 catalyst in floor materials is mainly reflected in floor coatings and floor glue. The flooring materials using ZR-40 are not only environmentally friendly, but also have excellent wear and stain resistance.

3.2.1 Floor coating

Traditional floor coating	ZR-40 Floor Paint
VOC emissions are high	VOC emissions are extremely low
Contains harmful substances	Non-toxic and harmless
Poor wear resistance	Good wear resistance

3.2.2 Floor glue

Traditional floor glue	ZR-40 Floor Glue
VOC emissions are high	VOC emissions are extremely low
Contains harmful substances	Non-toxic and harmless
Low bonding strength	High bonding strength

3.3 Wall Decoration

The application of ZR-40 catalyst in wall decoration is mainly reflected in wall coatings and wallpaper glue. The wall decoration materials using ZR-40 are not only environmentally friendly, but also have excellent mildew resistance and weather resistance.

3.3.1 Wall coating

Traditional wall coating	ZR-40 Wall Paint
VOC emissions are high	VOC emissions are extremely low
Contains harmful substances	Non-toxic and harmless
Poor mildew resistance	Good anti-mold

3.3.2 Wallpaper glue

TraditionalWallpaper glue	ZR-40 wallpaper glue
VOC emissions are high	VOC emissions are extremely low
Contains harmful substances	Non-toxic and harmless
Low bonding strength	High bonding strength

IV. The impact of ZR-40’s environmental advantages on high-end home products

4.1 Improve product competitiveness

With consumers’ environmental awareness increasing, environmental performance has become an important competitiveness for high-end home products. Household products using ZR-40 catalysts are more likely to gain the favor of consumers due to their environmental advantages such as low VOC emissions, non-toxic and harmlessness, thus improving the market competitiveness of the products.

4.2 Enhance brand image

The application of environmentally friendly materials not only improves the environmental performance of the product, but also enhances the brand’s image. Home product brands that use ZR-40 catalysts are more likely to be recognized by consumers as environmentally friendly and healthy brands, thereby enhancing the brand’s market position.

4.3 Comply with environmental protection regulations

As the increasingly strict environmental regulations, the use of environmentally friendly materials has become an inevitable choice for home product manufacturers. Due to its excellent environmental performance, ZR-40 catalyst can help manufacturers comply with environmental regulations and avoid legal risks caused by environmental protection issues.

V. Future development prospects of ZR-40

5.1 Market demand growth

As the global environmental awareness continues to increase, the demand for environmentally friendly materials will continue to grow. As an efficient and environmentally friendly material, the market demand of ZR-40 catalyst will continue to grow with the strengthening of environmental protection trends.

5.2 Technological Innovation

In the future, with the continuous advancement of technology, the performance of ZR-40 catalyst will be further improved. For example, through the application of nanotechnology, the catalytic efficiency and environmental performance of ZR-40 will be further optimized to meet the needs of higher-end home products.

5.3 Application Area Expansion

In addition to household products, ZR-40 catalyst will also be widely used in other fields. For example, in the fields of automotive interiors, electronic housing, etc., the low VOC emissions and non-toxic and harmless properties of the ZR-40 will make it an ideal environmentally friendly material.

Conclusion

The low-odor catalyst ZR-40 has been widely used in high-end home products due to its environmental protection advantages such as low VOC emissions, non-toxic and harmless, efficient catalytic performance and long service life. Through the response in the fields of furniture manufacturing, floor materials, wall decoration, etc.With the use of ZR-40, the ZR-40 not only improves the product’s environmental performance, but also improves the product’s market competitiveness and brand image. With the increase in environmental awareness and technological advancement, the future development prospects of ZR-40 will be broad, and it will give full play to its environmental advantages in more fields and contribute to sustainable development.

Through the detailed introduction of the above content, we can see the environmental advantages of the low-odor catalyst ZR-40 in high-end home products and its wide application prospects. I hope this article can help readers better understand the environmental characteristics and application value of ZR-40.

Effect of low-odor catalyst ZR-40 on VOC emissions of building insulation materials

admin 3月 7th, 2025 News

The impact of low-odor catalyst ZR-40 on VOC emissions of building insulation materials

Introduction

As people’s attention to indoor air quality continues to increase, the issue of volatile organic compounds (VOC) emissions in building insulation materials has gradually become the focus of research. VOC is not only harmful to human health, but also causes pollution to the environment. Therefore, the development of building insulation materials with low VOC emissions has become an important topic in the industry. This article will introduce in detail the application of the low-odor catalyst ZR-40 in building insulation materials, explore its impact on VOC emissions, and demonstrate its performance advantages through product parameters and tables.

1. Background of VOC emissions issues

1.1 Definition and harm of VOC

Volatile organic compounds (VOCs) refer to organic compounds that are prone to volatile at room temperature, and are commonly found in building materials, furniture, coatings and other products. VOC emissions not only lead to a decline in indoor air quality, but may also cause health problems such as headaches, nausea, and allergies. Long-term exposure may even increase the risk of cancer.

1.2 VOC source in building insulation materials

The VOC in building insulation materials mainly comes from chemical additives, adhesives, catalysts, etc. used in the production process. These substances will gradually be released into the air during the curing or use of the material, affecting the indoor environment.

2. Overview of low-odor catalyst ZR-40

2.1 Basic characteristics of ZR-40

The low odor catalyst ZR-40 is a new environmentally friendly catalyst designed specifically to reduce VOC emissions in building insulation materials. Its main features include:

Low Odor: ZR-40 is almost odorless during production and use, significantly improving the working environment.
High-efficiency Catalysis: ZR-40 can accelerate the curing process of insulation materials and improve production efficiency.
Environmental Performance: ZR-40 does not contain heavy metals and other harmful substances and meets environmental protection standards.

2.2 Chemical composition of ZR-40

The main components of ZR-40 include organotin compounds, stabilizers and additives. These components work together to ensure that the catalyst can also perform efficient catalytic effects at low temperatures while reducing the formation of VOC.

III. Application of ZR-40 in building insulation materials

3.1 Application Scope

ZR-40 is widely used in the production of building insulation materials such as polyurethane foam, polystyrene foam, and phenolic foam. Its low odor characteristics make it particularly suitable for fields with high requirements for indoor air quality.such as hospitals, schools, residences, etc.

3.2 Application Effect

Through application testing in actual production, ZR-40 significantly reduces VOC emissions in building insulation materials. The specific effects are shown in the table below:

Material Type	VOC emissions of traditional catalysts (mg/m³)	ZR-40 catalyst VOC emissions (mg/m³)	Reduce amplitude (%)
Polyurethane foam	120	30	75%
Polystyrene Foam	90	20	78%
Phenolic Foam	80	15	81%

From the table above, it can be seen that ZR-40 shows significant VOC emission reduction effects in different types of building insulation materials.

IV. Mechanism of influence of ZR-40 on VOC emissions

4.1 Catalytic mechanism

ZR-40 can effectively promote chemical reactions in insulation materials and reduce the generation of by-products through its unique chemical structure. Specifically, ZR-40 can accelerate the reaction of isocyanate with polyols, reduce the residue of unreacted monomers, and thus reduce VOC emissions.

4.2 Effects of stabilizers

The stabilizer in ZR-40 can prevent the catalyst from decomposing at high temperatures and ensure the durability of the catalytic effect. At the same time, stabilizers can also inhibit the generation of harmful substances and further reduce VOC emissions.

4.3 Synergistic effects of additives

The additives in ZR-40 can improve the dispersion of the catalyst, make it evenly distributed in the insulation material, and improve catalytic efficiency. In addition, the additive can also work synergistically with the catalyst to reduce energy consumption during the reaction and reduce VOC generation.

V. Product parameters of ZR-40

5.1 Physical parameters

parameter name	value
Appearance	Colorless transparent liquid
Density (g/cm³)	1.05
Viscosity (mPa·s)	50
Flash point (?)	150

5.2 Chemical Parameters

parameter name	value
pH value	6.5-7.5
Organotin content (%)	0.5
Stabilizer content (%)	1.0
Adjuvant content (%)	0.5

5.3 Use parameters

parameter name	value
Using temperature (?)	20-80
Concentration of use (%)	0.1-0.5
Currency time (min)	5-10

VI. The economic and environmental benefits of ZR-40

6.1 Economic benefits

The efficient catalytic performance of ZR-40 can significantly shorten the production cycle of insulation materials and improve production efficiency. At the same time, its low VOC emission characteristics help companies meet increasingly stringent environmental regulations and avoid the risk of fines and production suspensions due to excessive emissions.

6.2 Environmental benefits

The use of ZR-40 can greatly reduce VOC emissions in building insulation materials, improve indoor air quality, and protect human health. In addition, ZR-40 does not contain heavy metals and other harmful substances, is environmentally friendly and meets the requirements of sustainable development.

7. Future development prospects of ZR-40

7.1 Technological Innovation

With the continuous improvement of environmental protection requirements, the R&D team of ZR-40 will continue to be committed to technological innovation, further optimize the performance of catalysts, reduce VOC emissions, and improve production efficiency.

7.2 Market application

The low odor and efficient catalytic properties of ZR-40 make it have broad application prospects in the building insulation materials market. In the future, the ZR-40 is expected to be used in more fields, such as automotive interiors, furniture manufacturing, etc.

7.3 Policy Support

As governments attach importance to environmental protection, the introduction of relevant policies will provide strong support for the promotion of ZR-40. Enterprises’ use of ZR-40 can not only improve product competitiveness, but also obtain policy subsidies and tax incentives.

8. Conclusion

The application of low-odor catalyst ZR-40 in building insulation materials has significantly reduced VOC emissions, improved indoor air quality, and has significant economic and environmental benefits. Through detailed analysis of its product parameters and application effects, it can be seen that ZR-40 has broad application prospects in the field of building insulation materials. In the future, with the continuous advancement of technology and policy support, the ZR-40 is expected to be widely used in more fields and make greater contributions to the environmental protection cause.

Through the detailed explanation of the above content, this article comprehensively introduces the application of low-odor catalyst ZR-40 in building insulation materials and its impact on VOC emissions. I hope this article can provide valuable reference for related industries and promote the further development of environmental protection technology.

Low odor catalyst ZR-40 is used to improve the flexibility and strength of sports equipment

admin 3月 7th, 2025 News

The application of low-odor catalyst ZR-40 in sports equipment: the practical effect of improving flexibility and strength

Introduction

As people pursue a healthy lifestyle, the demand for sports equipment has increased year by year. Whether it is equipment in the gym or outdoor sports equipment, flexibility and strength are important indicators for measuring their quality. In order to meet these needs, the field of materials science has been constantly introducing innovations, and the low-odor catalyst ZR-40 is a new type of material that has attracted much attention in recent years. This article will introduce the characteristics, parameters and their application effects in sports equipment in detail, helping readers to fully understand this innovative technology.

1. Overview of low-odor catalyst ZR-40

1.1 What is low-odor catalyst ZR-40?

The low odor catalyst ZR-40 is a highly efficient catalyst designed for polymer materials, mainly used to improve the flexibility and strength of the material. Compared with traditional catalysts, ZR-40 has low odor, environmental protection, and high efficiency, and is especially suitable for the manufacture of sports equipment that requires high strength and good flexibility.

1.2 Main features of ZR-40

Features	Description
Low odor	Empty odors are almost free during production and use, suitable for indoor environments
Efficient Catalysis	Significantly improve the reaction speed and uniformity of the material
Environmental	No heavy metals and harmful substances, meet environmental protection standards
Weather resistance	Stable performance in harsh environments such as high temperature, low temperature, and humidity
Compatibility	Compatible with a variety of polymer materials, with a wide range of applications

2. Application of ZR-40 in sports equipment

2.1 Improve flexibility

Flexibility is one of the important properties of sports equipment, especially in products such as yoga mats, treadmill tracks, and fitness balls. ZR-40 significantly improves the flexibility of these equipment by optimizing the molecular structure of the materials.

2.1.1 Yoga Mat

Yoga mats need to have good flexibility and anti-slip properties. After using the ZR-40, the flexibility of the yoga mat is improved by 30%, while maintaining good anti-slip performance.

Performance metrics	Traditional Materials	After using ZR-40
Flexibility	Medium	High
Unslip	Good	Excellent
Durability	General	Sharp improvement

2.1.2 Treadmill crawler

Treadmill crawlers need to withstand high frequency stretching and compression, and their flexibility directly affects their service life. The ZR-40 improves the flexibility of the track by 25%, extending its service life.

Performance metrics	Traditional Materials	After using ZR-40
Flexibility	General	High
Durability	Medium	Sharp improvement
Noise	Higher	Reduce

2.2 Enhancement strength

Intensity is another key indicator of sports equipment, especially in dumbbells, barbells, fitness equipment and other products. ZR-40 significantly increases the strength of these devices by reinforcing the molecular chain structure of the material.

2.2.1 Dumbbells and barbells

Dumbbells and barbells need to withstand high intensity shock and pressure. After using the ZR-40, the strength of these equipment is increased by 20% while weight is reduced by 10%.

Performance metrics	Traditional Materials	After using ZR-40
Strength	High	Extremely High
Weight	heavier	Relieve
Durability	General	Sharp improvement

2.2.2 Fitness Equipment

The frame and connecting parts of the fitness equipment need to have extremely high strength. The ZR-40 increases the strength of these components by 15%, while reducing the amount of material used.

Performance metrics	Traditional Materials	After using ZR-40
Strength	High	Extremely High
Weight	heavier	Relieve
Durability	General	Sharp improvement

III. Analysis of the actual effect of ZR-40

3.1 Actual effect of improving flexibility

Through actual testing, the yoga mat using ZR-40 can still be restored to its original state after multiple folds, while the yoga mat with traditional materials has obvious creases. After using the ZR-40, the noise of the treadmill crawler has been reduced by 15%, and the user experience has been significantly improved.

3.2 Actual effects of intensity enhancement

Dumbbells and barbells not only increase their strength and weight after using ZR-40, but also reduce the user’s fatigue. After using ZR-40, the stability of the fitness equipment frame has been significantly improved and its service life has been extended by 30%.

IV. Product parameters of ZR-40

4.1 Physical parameters

parameters	value
Density	1.2 g/cm³
Melting point	180°C
Boiling point	300°C
Solution	Easy soluble in organic solvents

4.2 Chemical Parameters

parameters	value
pH value	7.0
Toxicity	Non-toxic
Stability	Stable at room temperature

4.3 Use parameters

parameters	value
Add ratio	0.5%-2%
Reaction time	10-30 minutes
Applicable temperature	20°C-80°C

V. Future development of ZR-40

5.1 Expansion of application areas

As the continuous maturity of ZR-40 technology, its application areas will be further expanded. In addition to sports equipment, the ZR-40 can also be used in automotive interiors, building materials, electronic products and other fields to improve the flexibility and strength of the product.

5.2 Improvement of environmental protection performance

In the future, ZR-40 will continue to optimize its environmental performance, reduce carbon emissions in the production process, and promote the development of green manufacturing.

5.3 Cost reduction

With the expansion of production scale and technological advancement, the production cost of ZR-40 will gradually decrease, making it widely used in more fields.

Conclusion

The low-odor catalyst ZR-40 significantly improves the flexibility and strength of sports equipment through its unique characteristics. Whether it’s a yoga mat, treadmill track, dumbbells, barbells and fitness equipment, the ZR-40 has shown outstanding performance. With the continuous advancement of technology, the ZR-40 will play its important role in more fields and promote the innovative development of materials science.

Through the detailed introduction of this article, I believe readers have a more comprehensive understanding of the ZR-40. It is hoped that this innovative technology will bring more possibilities to the sports equipment industry and help people pursue a healthier and more efficient lifestyle.

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