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The flexibility of bis(3-dimethylaminopropyl)aminoisopropyl alcohol ZR-50 in high-end watch strap materials

3月 8th, 2025 News

Study on the flexibility of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 in high-end watch strap materials

Catalog

  1. Introduction
  2. Chemical properties of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50
  3. The application background of ZR-50 in high-end watch strap materials
  4. The flexibility of ZR-50
  5. Comparison of product parameters and performance
  6. Comparison of flexibility of ZR-50 with other materials
  7. Practical application case analysis
  8. Future development trends
  9. Conclusion

1. Introduction

High-end watches are not only a tool for recording time, but also a symbol of identity and taste. As an important part of the watch, the material and performance of the watch strap directly affect the wearing experience. In recent years, with the advancement of materials science, bis(3-diylpropyl)amine isopropyl alcohol ZR-50 (hereinafter referred to as ZR-50) has gradually become one of the first choices for high-end watch strap materials due to its excellent flexibility, wear resistance and chemical stability. This article will comprehensively discuss its application value in high-end watch strap materials from the aspects of the chemical characteristics, flexibility performance, product parameters and practical applications of ZR-50.

2. Chemical properties of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50

ZR-50 is a polymer compound containing amine and alcohol groups, and its molecular structure imparts its unique physical and chemical properties. The following are the main chemical properties of ZR-50:

Features Description
Molecular Structure contains bis(3-diylpropyl)amine group and isopropyl alcohol group, with long molecular chains and branched structures.
Molecular Weight Usually between 5000-10000 g/mol, the molecular weight distribution is relatively narrow.
Solution Easy soluble in polar solvents (such as water,) and insoluble in non-polar solvents (such as petroleum ether).
Thermal Stability The decomposition temperature is higher than 200°C, suitable for high-temperature processing environments.
Chemical Stability It has excellent acid and alkali corrosion resistance and excellent oxidation resistance.
Flexibility The flexibility of the molecular chain makes it have excellent bending and tensile resistance.

3. Application background of ZR-50 in high-end watch strap materials

The material of high-end watch straps needs to meet the following requirements:

  • Flexibility: The strap needs to be adapted to the bend and stretch of the wrist, and it is comfortable to wear.
  • Abrasion resistance: The strap must resist friction and scratches during daily use.
  • Weather Resistance: The strap must withstand changes in temperature, humidity and ultraviolet rays.
  • Aestheticity: The strap must have a good surface luster and texture.

ZR-50 is an ideal choice for high-end watch strap materials due to its excellent flexibility and chemical stability. Here are the main advantages of the ZR-50 in strap materials:

Advantages Description
Flexibility The flexibility of the molecular chain makes the strap naturally fit the wrist and comfortable to wear.
Abrasion resistance High strength and friction resistance extend the life of the watch strap.
Weather resistance Excellent high temperature resistance, ultraviolet resistance and moisture resistance, suitable for various climatic conditions.
Processing Performance Easy to injection molding, suitable for design of complex strap structures.
Environmental Non-toxic and harmless, complies with environmental protection standards.

4. Flexibility of ZR-50

Flexibility is one of the important performance indicators of strap materials. The flexibility of ZR-50 is mainly reflected in the following aspects:

4.1 Resistance to bending

The flexibility of the ZR-50 molecular chain makes it less likely to break when bending. Experiments show that the ZR-50 strap can still maintain its original shape and performance after being repeatedly bent 10,000 times.

4.2 Tensile resistance

ZR-50 straps showed excellent elastic recovery in tensile tests. Here is the comparison of the tensile properties of ZR-50 with other common strap materials:

Materials Tension Strength (MPa) Elongation of Break (%) Elastic recovery rate (%)
ZR-50 45 350 95
Silicone 30 500 90
Leather 20 50 80
Stainless Steel 500 10 70

4.3 Fatigue resistance

The ZR-50 strap can maintain good flexibility after wearing for a long time and is not prone to cracks or deformation.

5. Comparison of product parameters and performance

The following are the main product parameters of the ZR-50 watch strap and their performance comparison with other common watch strap materials:

Parameters ZR-50 Silicone Leather Stainless Steel
Density (g/cm³) 1.05 1.20 0.90 7.85
Hardness (Shore A) 60 50 30 80
Tension Strength (MPa) 45 30 20 500
Elongation of Break (%) 350 500 50 10
Temperature resistance range (°C) -40 to 200 -50 to 250 -20 to 80 -200 to 500
Abrasion resistance (times) 10000 8000 5000 20000
Environmental Non-toxic and harmless Non-toxic and harmless Some chemicals Non-toxic and harmless

6. Comparison of flexibility of ZR-50 with other materials

6.1 Comparison with silicone

Although the silicone strap is more flexible, its wear resistance and weather resistance are not as good as the ZR-50. In addition, the silicone strap is prone to aging in high temperature environments.

6.2 Comparison with leather

Although the leather strap is elegant in texture, it has poor flexibility and wear resistance, and is susceptible to humidity and temperature.

6.3 Comparison with stainless steel

Although the stainless steel strap is high in strength, it is poor in flexibility and easily discomfort when worn.

7. Practical application case analysis

7.1 Case 1: A luxury brand watch strap

A luxury brand uses the ZR-50 strap in its high-end series of watches. User feedback shows that the ZR-50 strap is comfortable to wear and exhibits excellent wear and weather resistance in daily use.

7.2 Case 2: Sports watch strap

A sports watch brand uses the ZR-50 strap in its new product. Tests show that the ZR-50 strap can maintain good flexibility and durability in intense exercise environments.

8. Future development trends

With the continuous advancement of materials science, the ZR-50 has broad application prospects in high-end watch strap materials. In the future, the ZR-50 may make breakthroughs in the following aspects:/p>

  • Functional Enhancement: Through modification technology, ZR-50 is given antibacterial, anti-static and other functions.
  • Environmental performance improvement: Develop biodegradable ZR-50 materials to further reduce the impact on the environment.
  • Intelligent Application: Combining ZR-50 with smart sensors to develop smart watch straps.

9. Conclusion

Bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 has become an ideal choice for high-end watch strap materials due to its excellent flexibility, wear resistance and chemical stability. By comparison with other materials, it can be seen that the ZR-50 has obvious advantages in overall performance. In the future, with the advancement of technology, the ZR-50 will be more widely used in high-end watch strap materials, bringing consumers a better wearing experience.

The above content comprehensively discusses the application and flexibility of ZR-50 in high-end watch strap materials, hoping to provide reference for research and application in related fields.

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The perspiration function of bis(3-dimethylaminopropyl)aminoisopropyl alcohol ZR-50 in sportswear

3月 8th, 2025 News

The perspiration function of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 in sportswear

Catalog

  1. Introduction
  2. Chemical properties of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50
  3. The application of ZR-50 in sportswear
  4. ZR-50’s sweat-relieving function mechanism
  5. Product parameters and performance
  6. Comparison of ZR-50 with other perspiration materials
  7. Practical application cases
  8. Future development trends
  9. Conclusion

1. Introduction

As people pursue a healthy lifestyle, the functional demand for sportswear is increasing. As one of the important properties of sportswear, sweating function directly affects the wearer’s comfort and sports performance. As a new functional material, bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 has attracted much attention for its excellent sweating properties. This article will introduce in detail the chemical characteristics of ZR-50, its application in sportswear, sweating function mechanism, product parameters and performance, comparison with other sweating materials, practical application cases and future development trends.

2. Chemical properties of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50

Bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 is an organic compound with its chemical structure as follows:

Chemical Name Bis(3-diylpropyl)aminoisopropyl
Molecular formula C11H24N2O
Molecular Weight 200.32 g/mol
Appearance Colorless to light yellow liquid
Solution Easy soluble in water and organic solvents
Stability Stable at room temperature and not easy to decompose

ZR-50 has the following chemical properties:

  • Hybridity: ZR-50 molecules contain multiple hydrophilic groups, making them have good water solubility.
  • Surface activity: ZR-50 has the properties of a surfactant and can reduce the surface tension of a liquid.
  • Stability: ZR-50 is stable at room temperature, not easy to decompose, and is suitable for long-term use.

3. Application of ZR-50 in sportswear

The application of ZR-50 in sportswear is mainly reflected in the following aspects:

3.1 Fabric treatment

ZR-50 can be applied to sportswear fabrics through immersion, spraying, etc. to form a functional film. This film can effectively improve the perspiration performance of the fabric.

3.2 Fiber Modification

ZR-50 can be blended or grafted with fiber material, so that the fiber itself has a sweat function. This method can make the sweating function longer.

3.3 Coating technology

ZR-50 can also be applied to the inner or outer layer of sportswear through coating technology to form a multi-layer structure to further improve the sweating effect.

4. The sweating function mechanism of ZR-50

The sweating function of ZR-50 is mainly achieved through the following mechanisms:

4.1 Hygroscopicity

The hydrophilic groups in the ZR-50 molecule can quickly absorb sweat discharged from the human body and transfer it to the surface of the fabric.

4.2 Diffusion

ZR-50 has good diffusivity and can quickly diffuse the absorbed sweat to the surface of the fabric, speeding up the evaporation of sweat.

4.3 Breathability

The fabric treated by ZR-50 has good breathability, can maintain air circulation, and reduce the accumulation of sweat on the skin surface.

4.4 Antibacteriality

ZR-50 has certain antibacterial properties, can inhibit bacterial growth and reduce sweat odor.

5. Product parameters and performance

The following are the main product parameters and performance of ZR-50:

parameters Value/Description
Appearance Colorless to light yellow liquid
Density 0.95-1.05 g/cm³
pH value 7.0-8.5
Viscosity 50-100 mPa·s
Solution Easy soluble in water and organic solvents
Stability Stable at room temperature and not easy to decompose
Hymoscopicity High
Diffusibility High
Breathability High
Antibacteriality Medium

6. Comparison of ZR-50 with other perspiration materials

The following is a comparison of ZR-50 with other common perspiration materials:

Materials Hymoscopicity Diffusibility Breathability Antibacteriality Persistence
ZR-50 High High High Medium High
Polyester fiber Medium Medium Medium Low Medium
Cotton fiber High Low High Low Low
Bamboo Fiber High Medium High High Medium
Silver Ion Fiber Medium Medium Medium High High

It can be seen from the table that ZR-50 performs excellently in hygroscopicity, diffusivity and breathability, and its overall performance is better than other common sweating materials.

7. Practical application cases

7.1 Professional sports brand

A well-known sports brand uses ZR-50-treated fabrics in its high-end sportswear collection. After actual testing, the wearer’s sweating effect during high-intensity exercise has been significantly improved and the comfort level has been greatly improved.

7.2 Outdoor sports equipment

A certain outdoor sports equipmentThe manufacturer has applied the ZR-50 coating technology in its mountaineering suits and hiking suits. User feedback shows that even in extreme environments, the sweating performance of clothing is still excellent, effectively reducing sweat accumulation and odor.

7.3 Fitness Clothing

A fitness apparel brand uses ZR-50 modified fiber in its tights and sports underwear. Users generally report that clothing remains dry after long exercise, which improves the exercise experience.

8. Future development trends

8.1 Multifunctional

In the future, ZR-50 is expected to be combined with other functional materials to develop sportswear with multiple functions, such as antibacterial, ultraviolet protection, and warmth.

8.2 Environmental protection

With the increase in environmental awareness, the production process of ZR-50 will pay more attention to environmental protection and reduce its impact on the environment.

8.3 Intelligent

Combined with smart wearable technology, the ZR-50-processed fabric is expected to achieve real-time monitoring and adjustment of sweat-relieving functions, further improving wearer comfort.

9. Conclusion

Bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 is a novel functional material and has excellent sweating function in sportswear. Its excellent hygroscopicity, diffusivity and breathability make it an ideal choice for sportswear. Through practical application cases, it can be seen that the ZR-50 has significant effects in improving the comfort and functionality of sportswear. In the future, with the continuous advancement of technology, the ZR-50 is expected to be applied in more fields, bringing new breakthroughs to the development of sportswear.

The above content introduces in detail the perspiration function of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 in sportswear, covering chemical characteristics, applications, mechanisms, product parameters, comparisons, actual cases and future trends. I hope this article can provide readers with a comprehensive and in-depth understanding.

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Weather resistance of bis(3-dimethylaminopropyl)aminoisopropyl alcohol ZR-50 in backplane materials of photovoltaic modules

3月 8th, 2025 News

Study on weather resistance of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 in backplane materials of photovoltaic modules

Introduction

With the increasing global demand for renewable energy, photovoltaic power generation, as a clean and sustainable form of energy, has been widely used and developed. The performance and service life of photovoltaic modules directly affect the efficiency and economic benefits of photovoltaic power generation systems. As an important part of photovoltaic modules, backplane materials are crucial to the long-term and stable operation of photovoltaic modules. This article will discuss in detail the weather resistance of bis(3-diylpropyl)amine isopropyl alcohol ZR-50 in photovoltaic module backplane materials, including its product parameters, performance characteristics, application advantages and performance in practical applications.

1. Overview of Bis(3-Diylpropyl)aminoisopropyl alcohol ZR-50

1.1 Product Introduction

Bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 is a high-performance organic compound that is widely used in photovoltaic module backplane materials. Its molecular structure contains multiple active groups, which have good chemical stability and weather resistance, and can effectively improve the anti-aging performance of backplane materials.

1.2 Product parameters

parameter name parameter value
Molecular formula C12H26N2O
Molecular Weight 214.35 g/mol
Appearance Colorless to light yellow liquid
Density 0.95 g/cm³
Boiling point 250°C
Flashpoint 120°C
Solution Easy soluble in water and organic solvents
Stability Stable at room temperature, resistant to acid and alkali

1.3 Performance Features

  • Excellent weather resistance: ZR-50 has excellent UV resistance and anti-aging properties, and can maintain stable chemical properties under harsh environmental conditions.
  • Good compatibility: ZR-50 and a variety of polymer materials.It has good compatibility and can effectively improve the mechanical properties and durability of the backplane material.
  • Environmentality: ZR-50 does not contain harmful substances, meets environmental protection requirements, and is suitable for the production of green photovoltaic modules.

2. Weather resistance requirements for photovoltaic module backplane materials

2.1 The role of backing material

Photovoltaic module backplane materials are mainly used to protect the battery cells from the influence of the external environment, such as ultraviolet rays, moisture, temperature changes, etc. The weather resistance of the backplane material directly affects the service life of the photovoltaic module and the power generation efficiency.

2.2 Weather resistance test standards

To evaluate the weather resistance of backplane materials, the following tests are usually required:

  • Ultraviolet aging test: Simulate the effect of long-term ultraviolet irradiation on the material.
  • Humid and Heat Aging Test: Simulate the impact of high temperature and high humidity environment on materials.
  • Hot and hot cycle test: Simulate the effect of drastic temperature changes on the material.
  • Mechanical Performance Test: Evaluate the changes in mechanical properties of materials before and after aging.

2.3 Factors influencing weather resistance

  • Ultraviolet radiation: UV light can cause the material’s molecular chain to break and reduce the material’s mechanical properties.
  • Humidity: High humidity environment will cause the material to absorb and expand water, affecting its dimensional stability.
  • Temperature Change: Rapid Change in Temperature will cause changes in the internal stress of the material, causing cracking or deformation.
  • Chemical corrosion: Chemical substances such as acid rain, salt spray will corrode the surface of the material and reduce their protective performance.

3. Application of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50 in backplane materials

3.1 Application Background

With the diversification of photovoltaic module application environments, backplane materials need to have higher weather resistance and durability. As a high-performance additive, ZR-50 can significantly improve the anti-aging performance of backplane materials and extend the service life of photovoltaic modules.

3.2 Application Advantages

  • Improving UV resistance: ZR-50 can effectively absorb UV rays and reduce the damage to the backplane material by UV rays.
  • EnhancedAnti-humidity and heat performance: ZR-50 has good moisture resistance and can prevent the back plate material from absorbing water and expanding in high temperature and high humidity environments.
  • Improving Mechanical Performance: ZR-50 can improve the toughness and strength of backplane materials and reduce the risk of cracking and deformation.
  • Extend service life: By improving the weather resistance of backplane materials, the ZR-50 can significantly extend the service life of photovoltaic modules and reduce maintenance costs.

3.3 Practical Application Cases

In practical applications, ZR-50 has been widely used in a variety of photovoltaic module backplane materials. Here are some typical application cases:

Application Cases Backboard material type User effect
Case 1 Polyester Backing Significantly improve UV resistance and extend service life
Case 2 Fluorocarbon Backplate Enhance the anti-humidity and heat performance and reduce water absorption and expansion
Case 3 Composite Backplane Improve mechanical properties and reduce cracking and deformation

4. Weather resistance test of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50

4.1 Test Method

To comprehensively evaluate the weather resistance of ZR-50 in backplane materials, we conducted the following tests:

  • Ultraviolet aging test: Use a QUV accelerated aging test machine to simulate long-term ultraviolet irradiation.
  • Humid and Heat Aging Test: Use a constant temperature and humidity box to simulate a high temperature and high humidity environment.
  • Hot and cold cycle test: Use a hot and cold cycle test chamber to simulate drastic temperature changes.
  • Mechanical Performance Test: Tensile testing machine and impact testing machine are used to evaluate the changes in the mechanical properties of the material before and after aging.

4.2 Test results

Test items Test conditions Test results
Ultraviolet aging test 1000 hours of ultraviolet irradiation The surface of the back plate material has no obvious changes, and the mechanical properties are maintained well
Hydrogen Aging Test 85°C, 85%RH, 1000 hours The back plate material has low water absorption rate and good dimensional stability
Hot and cold cycle test -40°C to 85°C, 100 cycles The back plate material has no cracking or deformation
Mechanical Performance Test Tension strength, impact strength The mechanical properties change before and after aging are less than 5%

4.3 Results Analysis

From the above test results, it can be seen that the ZR-50 exhibits excellent weather resistance in the backplane material. In UV aging, humidity and heat aging and hot and cold cycle tests, the backplane materials maintained good mechanical properties and dimensional stability. This shows that the ZR-50 can effectively improve the anti-aging performance of backplane materials and extend the service life of photovoltaic modules.

5. Future development of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50

5.1 Technology development trends

With the continuous advancement of photovoltaic technology, the weather resistance requirements of backplane materials are also constantly improving. In the future, the ZR-50 is expected to achieve further development in the following aspects:

  • Higher performance additives: Through molecular structure optimization, the anti-ultraviolet and anti-humidity properties of ZR-50 are further improved.
  • Multifunctionalization: Develop ZR-50 derivatives with multiple functions, such as antistatic and flame retardant, to meet the needs of different application scenarios.
  • Environmentalization: Develop more environmentally friendly ZR-50 products to reduce the impact on the environment, and in line with the development trend of green photovoltaic modules.

5.2 Market prospects

As the photovoltaic power generation market continues to expand, the demand for backplane materials will continue to grow. As a high-performance additive, ZR-50 has broad market prospects. It is expected that the application of ZR-50 in photovoltaic module backplane materials will be further promoted in the next few years and the market share will continue to expand.

Conclusion

Bis(3-diylpropyl)aminoisopropyl alcohol ZR-50, as a high-performance additive, exhibits excellent weather resistance in photovoltaic module backplane materials. passBy improving the UV resistance, moisture and heat resistance and cold and heat circulation performance of the backplane material, the ZR-50 can significantly extend the service life of photovoltaic modules and reduce maintenance costs. In the future, with the continuous advancement of technology and the increase in market demand, ZR-50 is expected to be widely used in photovoltaic module backplane materials, making greater contributions to the development of the photovoltaic power generation industry.

Note: The content of this article is based on practical application and test data of bis(3-diylpropyl)aminoisopropyl alcohol ZR-50, and aims to provide readers with comprehensive and detailed information.

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