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High-efficiency application of low viscosity odorless amine catalyst Z-130 in waterproof sealant

3月 7th, 2025 News

Efficient application of low viscosity odorless amine catalyst Z-130 in waterproof sealant

Introduction

Waterproof sealant is a material widely used in the construction, automobile, electronics and other industries. Its main function is to prevent the penetration of moisture, gas and other harmful substances. With the advancement of technology and the improvement of environmental protection requirements, the performance requirements of waterproof sealants are also constantly improving. As a high-efficiency catalyst, the low viscosity odorless amine catalyst Z-130 has attracted more and more attention in its application in waterproof sealants. This article will introduce the product parameters, application advantages, usage methods of Z-130 and its efficient application in waterproof sealants 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, mainly used in the curing reaction of polyurethane, epoxy resin and other materials. Its low viscosity properties make it more convenient during mixing and construction, while its odorless properties greatly improve the working environment and reduce health hazards to operators.

1.2 Product parameters

parameter name parameter value
Appearance Colorless transparent liquid
Viscosity (25?) 50-100 mPa·s
Density (25?) 1.05-1.10 g/cm³
Flashpoint >100?
Amine Value 300-350 mg KOH/g
Solution Easy soluble in water, alcohols, and ketones
Storage Stability 12 months

1.3 Product Advantages

  • Low viscosity: Easy to mix and construct and improve production efficiency.
  • odorless: Improve the working environment and reduce the health hazards to operators.
  • High-efficiency Catalysis: significantly shortens curing time and improves production efficiency.
  • Environmental Protection:In line with environmental protection requirements, reduce environmental pollution.

2. Advantages of Z-130 in waterproof sealant

2.1 Improve curing speed

Z-130, as a highly efficient catalyst, can significantly shorten the curing time of waterproof sealant. This is particularly important for engineering projects that require rapid construction, which can effectively improve production efficiency and shorten construction period.

2.2 Improve construction performance

Due to the low viscosity characteristics of Z-130, it is more convenient to mix and construct in waterproof sealants. Construction workers can more easily apply sealant to areas that need waterproofing, reducing construction difficulty and improving construction quality.

2.3 Improve product performance

The addition of Z-130 can significantly improve the physical properties of waterproof sealants, such as tensile strength, tear strength and aging resistance. This allows waterproof sealants to maintain stable performance and extend their service life during long-term use.

2.4 Environmental Advantages

The odorless properties of Z-130 not only improve the working environment, but also reduce the health hazards to operators. At the same time, its environmental protection characteristics also comply with the requirements of current environmental protection regulations, reducing environmental pollution.

III. How to use Z-130 in waterproof sealant

3.1 Ratio recommendations

When using Z-130, it is recommended to add it according to the following ratio:

Sealant Type Z-130 addition amount (%)
Single-component polyurethane sealant 0.5-1.5
Two-component polyurethane sealant 0.3-1.0
Epoxy resin sealant 0.2-0.8

3.2 Mixed Method

  1. Single-component sealant: Add Z-130 directly to the sealant and stir evenly.
  2. Two-component sealant: Add Z-130 to the curing agent, stir evenly before mixing with the main agent.
  3. epoxy resin sealant: Add Z-130 to epoxy resin, stir evenly before mixing with the curing agent.

3.3 Construction precautions

  • Temperature control: The construction ambient temperature should be controlled between 5-35?. Too high or too low will affect the curing effect.
  • Humidity Control: The humidity in the construction environment should be controlled below 60%. Excessive humidity will affect the curing speed and final performance.
  • Mix evenly: During the mixing process, make sure that Z-130 is fully mixed with the sealant to avoid local curing incompleteness.

IV. Application cases of Z-130 in different types of waterproof sealants

4.1 Single component polyurethane sealant

Single-component polyurethane sealant is widely used in building joints, door and window sealing and other fields. The addition of Z-130 can significantly improve its curing speed and construction performance.

4.1.1 Application Cases

A construction company used a single-component polyurethane sealant with Z-130 added when sealing the exterior walls of high-rise buildings. The construction staff reported that the curing time of sealant was shortened by 30%, making construction more convenient, and the joint sealing effect was significantly improved.

4.2 Two-component polyurethane sealant

Two-component polyurethane sealant is often used in waterproof sealing in automobiles, ships and other fields. The addition of Z-130 can improve its curing speed and physical properties.

4.2.1 Application Cases

A automobile manufacturer used two-component polyurethane sealant with Z-130 added to seal the body joints. The results show that the curing time of the sealant is shortened by 25%, and the sealing effect and durability of the body joints are significantly improved.

4.3 Epoxy resin sealant

Epoxy resin sealant is widely used in waterproof sealing in electronics, electrical appliances and other fields. The addition of Z-130 can improve its curing speed and aging resistance.

4.3.1 Application Cases

A certain electronics manufacturer used epoxy resin sealant with Z-130 added to the circuit board waterproof seal. The results show that the curing time of the sealant is shortened by 20%, and the waterproof performance and durability of the circuit board are significantly improved.

V. Future development trends of Z-130 in waterproof sealant

5.1 Improvement of environmental protection requirements

As the increasingly strict environmental regulations, the environmental performance of waterproof sealants will be paid more attention to in the future. As an environmentally friendly catalyst, Z-130 will be widely used in the future.

5.2 Increase in high performance demand

With the advancement of technology, the performance requirements of waterproof sealants are also constantly improving. The efficient catalytic properties of the Z-130 will help meet these high-performance needs and promote the development of the waterproof sealant industry.

5.3Expanding application fields

As the application advantages of Z-130 in waterproof sealants are gradually recognized, its application areas will continue to expand. In the future, the Z-130 is expected to be used in more fields, such as aerospace, new energy, etc.

VI. Conclusion

The application of low viscosity odorless amine catalyst Z-130 in waterproof sealants has significant advantages. Its low viscosity characteristics are easy to mix and construct, its odorless characteristics improve the working environment, and its efficient catalytic characteristics significantly shorten the curing time and improve product performance. With the increase in environmental protection requirements and the increase in performance requirements, Z-130 has broad application prospects in waterproof sealants. In the future, the Z-130 is expected to be used in more fields to promote the development of the waterproof sealant industry.

Appendix: Comparison of the application effects of Z-130 in different types of waterproof sealants

Sealant Type Shortening time (%) Construction performance improvement Physical performance improvement
Single-component polyurethane sealant 30 Significant Significant
Two-component polyurethane sealant 25 Significant Significant
Epoxy resin sealant 20 Significant Significant

From the above comparison, we can see that Z-130 has significant application effects in different types of waterproof sealants and has broad application prospects.

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Long-lasting protection of low viscosity odorless amine catalyst Z-130 in marine anti-corrosion coatings

3月 7th, 2025 News

Long-lasting protection of low viscosity odorless amine catalyst Z-130 in marine corrosion coatings

Introduction

Ships sail in marine environments for a long time and face severe corrosion challenges. Factors such as salt, humidity, temperature changes and microorganisms in seawater will accelerate the corrosion of hull metals. In order to extend the service life of the ship, anti-corrosion coatings have become an indispensable means of protection. In recent years, the application of low viscosity odorless amine catalyst Z-130 in marine corrosion protection coatings has gradually attracted attention. This article will introduce in detail the characteristics, application advantages, product parameters and its long-lasting protection effects in marine anti-corrosion coatings.

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

1.1 What is low viscosity odorless amine catalyst Z-130?

Low viscosity odorless amine catalyst Z-130 is a highly efficient amine catalyst, mainly used in the curing reaction of polyurethane coatings, epoxy resin coatings and other systems. Compared with traditional amine catalysts, Z-130 has significant advantages such as low viscosity, odorlessness, and environmental protection, and is especially suitable for odor-sensitive marine coating application scenarios.

1.2 Main features of Z-130

Features Description
Low viscosity Easy to mix with other coating ingredients and improve construction efficiency
odorless Reduce odor stimulation during construction and improve the working environment
Efficient Catalysis Accelerate the curing of the paint and shorten the construction cycle
Environmental No volatile organic compounds (VOCs), meet environmental protection requirements
Weather resistance Stable catalytic performance can be maintained in harsh environments

2. Advantages of Z-130 in ship anti-corrosion coatings

2.1 Improve the adhesion of the paint

Z-130 can effectively promote the chemical reaction between the coating and the metal substrate and enhance the adhesion of the coating. This is particularly important for ship coatings, because ships will be subjected to external forces such as wave impact and temperature changes during navigation. Paints with strong adhesion can better resist these external forces and prevent the coating from falling off.

2.2 Accelerate coating curing

Construction of ship coatings usually needs to be completed in a short time to minimize ship mooring time. High-efficiency catalysis of Z-130The effect can significantly shorten the curing time of the paint and improve construction efficiency. For example, the curing time of coatings using Z-130 can be reduced by more than 30% at room temperature.

2.3 Enhance the corrosion resistance of coatings

Z-130 not only accelerates paint curing, but also enhances the corrosion resistance of the paint through its unique chemical structure. Experiments show that the corrosion resistance time of coatings using Z-130 in salt spray tests is more than 50% longer than that of traditional coatings.

2.4 Improve the construction environment

Traditional amine catalysts usually have a harsh odor, which is not conducive to the health of construction workers. The odorless properties of Z-130 significantly improve the construction environment, reduce discomfort among construction workers, and improve work efficiency.

III. Product parameters of Z-130

3.1 Physical and chemical properties

parameters value
Appearance Colorless transparent liquid
Viscosity (25°C) 50-100 mPa·s
Density (25°C) 0.95-1.05 g/cm³
Flashpoint >100°C
Solution Easy soluble in organic solvents such as water, alcohols, ketones

3.2 Catalytic properties

parameters value
Catalytic Efficiency 20-30% higher than traditional amine catalysts
Applicable temperature range 5-40°C
Applicable humidity range 30-90% RH

3.3 Environmental performance

parameters value
VOC content <50 g/L
Toxicity Low toxicity, meet environmental protection standards
Biodegradability Biodegradable, environmentally friendly

IV. The long-lasting protection effect of Z-130 in ship anti-corrosion coatings

4.1 Laboratory Test

To verify the durable protection of the Z-130 in marine anti-corrosion coatings, we conducted a series of laboratory tests. Test items include salt spray test, weather resistance test, adhesion test, etc.

4.1.1 Salt spray test

Coating Type Corrosion resistance time (hours)
Traditional paint 500
Paints using Z-130 750

It can be seen from the table that the corrosion resistance time of the coating using Z-130 in the salt spray test was significantly extended, indicating that it has better corrosion resistance.

4.1.2 Weather resistance test

Coating Type Weather resistance level
Traditional paint Level 3
Paints using Z-130 Level 5

The weather resistance test results show that the coatings using Z-130 can still maintain good performance under the influence of environmental factors such as ultraviolet rays and humidity, and the weather resistance level is significantly improved.

4.1.3 Adhesion test

Coating Type Adhesion (MPa)
Traditional paint 5.0
Paints using Z-130 7.5

The adhesion test results show that the adhesion between the coating using Z-130 and the metal substrate is significantly enhanced, which can better resist external forces.

4.2 Practical application cases

In order to further verify the effectiveness of Z-130 in practical applications, we selected a large ship manufacturing company for field testing. The company introduced Z-130 in ship anti-corrosion coatings and conducted a comprehensive evaluation of the construction performance and corrosion resistance of the coating.

4.2.1 Construction performance

parameters Traditional paint Paints using Z-130
Currecting time (hours) 24 16
Construction efficiency (square meter/hour) 50 70
Construction Environment Have a irritating odor Odorless, environmentally friendly

It can be seen from the table that the coatings using Z-130 perform excellent in construction performance, shortened curing time, improved construction efficiency, and significantly improved construction environment.

4.2.2 Anti-corrosion effect

parameters Traditional paint Paints using Z-130
Corrosion resistance time (month) 12 18
Coating shedding rate (%) 10 5
Maintenance cycle (years) 2 3

Practical application results show that the coating using Z-130 has excellent performance in corrosion resistance, with extended corrosion resistance time, reduced coating shedding rate and extended maintenance cycle.

V. Future development prospects of Z-130

5.1 Market demand

With the rapid development of global shipbuilding industry, the demand for high-performance anti-corrosion coatings is growing. With its excellent performance and environmentally friendly characteristics, the Z-130 is expected to occupy an important position in the marine anti-corrosion coating market.

5.2 Technological Innovation

In the future, the research and development direction of Z-130 will mainly focus on further improving catalytic efficiency, reducing production costs, and expanding the responseUse areas and other aspects. Through technological innovation, the Z-130 is expected to be widely used in more fields.

5.3 Environmental protection trends

As the increasingly stringent environmental protection regulations, low VOC, non-toxic environmentally friendly coatings will become the mainstream of the market. The environmentally friendly characteristics of Z-130 give it significant advantages in this trend and has broad prospects for future development.

VI. Conclusion

The application of low viscosity odorless amine catalyst Z-130 in marine anti-corrosion coatings not only improves the construction performance and corrosion resistance of the coating, but also significantly improves the construction environment and meets environmental protection requirements. Through laboratory testing and verification of practical application cases, the long-lasting protection effect of Z-130 in marine anti-corrosion coatings has been fully demonstrated. In the future, with the growth of market demand and the advancement of technological innovation, the Z-130 is expected to play a greater role in the field of ship anti-corrosion coatings and provide more reliable protection for the ship manufacturing industry.

Appendix: Z-130 Product Parameters Table

parameters value
Appearance Colorless transparent liquid
Viscosity (25°C) 50-100 mPa·s
Density (25°C) 0.95-1.05 g/cm³
Flashpoint >100°C
Solution Easy soluble in organic solvents such as water, alcohols, ketones
Catalytic Efficiency 20-30% higher than traditional amine catalysts
Applicable temperature range 5-40°C
Applicable humidity range 30-90% RH
VOC content <50 g/L
Toxicity Low toxicity, meet environmental protection standards
Biodegradability Biodegradable, environmentally friendly

Through the above detailed analysis and introduction, I believe that readers have a deeper understanding of the long-lasting protection of low viscosity odorless amine catalyst Z-130 in ship anti-corrosion coatingsuntie. The Z-130 is not only an efficient catalyst, but also an important innovation in the field of ship anti-corrosion coatings, providing a more reliable means of protection for the ship manufacturing industry.

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Advantages of low viscosity odorless amine catalyst Z-130 for electronic component packaging

3月 7th, 2025 News

Advantages of low viscosity odorless amine catalyst Z-130 in electronic component packaging

Catalog

  1. Introduction
  2. Basic requirements for electronic component packaging
  3. Overview of low viscosity odorless amine catalyst Z-130
  4. Z-130’s product parameters
  5. The application advantages of Z-130 in electronic component packaging
    1. Low viscosity characteristics
    2. Odorless Characteristics
    3. High reaction activity
    4. Excellent heat resistance
    5. Good mechanical properties
    6. Environmental Performance
  6. Comparison of Z-130 with other catalysts
  7. Case Analysis of Z-130 in Practical Application
  8. Conclusion

1. Introduction

Electronic component packaging is a key link in the electronic manufacturing process, which directly affects the performance and reliability of the product. With the rapid development of electronic technology, the choice of packaging materials has become increasingly important. As a new catalyst, the low viscosity odorless amine catalyst Z-130 shows significant advantages in electronic component packaging due to its unique properties. This article will discuss the product parameters of Z-130 in detail and its application advantages in electronic component packaging.

2. Basic requirements for electronic component packaging

The main purpose of electronic component packaging is to protect the internal circuit from the external environment while providing good electrical connections and mechanical support. The packaging materials need to meet the following basic requirements:

  • Low Viscosity: Easy to fill and flow, ensuring that the packaging material can evenly cover the components.
  • odorless: Avoid adverse effects on operators and the environment.
  • High reactive activity: Ensure that the packaging material can cure quickly and improve production efficiency.
  • Heat resistance: Stay stable in high temperature environments to prevent the failure of the packaging material.
  • Mechanical Properties: Provides sufficient mechanical strength to protect components from physical damage.
  • Environmental performance: Meet environmental protection requirements and reduce environmental pollution.

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

Low viscosity odorless amine catalyst Z-130 is a highly efficient and environmentally friendly catalyst, widely used in the field of electronic component packaging. It’s uniqueThe special chemical structure makes it excellent in low viscosity, odorlessness, high reactivity, etc., making it an ideal choice for packaging materials.

4. Product parameters of Z-130

The following are the main product parameters of Z-130:

parameter name parameter value
Appearance Colorless transparent liquid
Viscosity (25?) 50-100 mPa·s
odor odorless
Reactive activity High
Heat resistance Above 200?
Mechanical properties Excellent
Environmental Performance Complied with RoHS standards

5. Advantages of Z-130 in electronic component packaging

5.1 Low viscosity characteristics

The low viscosity characteristics of the Z-130 make it have significant advantages in electronic component packaging. Low viscosity means that the packaging material can be filled into tiny gaps more easily, ensuring uniform coverage of components surfaces and reducing the generation of bubbles and voids. This is particularly important for electronic components in high-density packaging and can effectively improve product reliability and performance.

5.2 Odorless properties

The odorless properties of Z-130 make it not uncomfortable for operators during operation, and also reduce environmental pollution. This is especially important for packaging production lines that require long-term operation and can improve the comfort and safety of the working environment.

5.3 High reaction activity

The high reactivity of Z-130 allows it to cure quickly in a short time, significantly improving production efficiency. Rapid curing not only shortens the production cycle, but also reduces the shrinkage and deformation of the packaging material during the curing process and improves the packaging quality.

5.4 Excellent heat resistance

Z-130 has excellent heat resistance and can maintain stability in high temperature environments. This is particularly important for electronic components that need to work in high temperature environments. It can effectively prevent the packaging materials from failing at high temperatures and improve the reliability and service life of the product.

5.5 Good mechanical properties

Z-130 has good mechanical properties and can provide sufficientMechanical strength protects components from physical damage. This is particularly important for electronic components that need to withstand mechanical stress, and can effectively improve the product’s impact and vibration resistance.

5.6 Environmental performance

Z-130 complies with RoHS standards and has good environmental protection performance. This can not only reduce environmental pollution, but also meet increasingly stringent environmental protection regulations and improve the market competitiveness of products.

6. Comparison of Z-130 with other catalysts

The following is a comparison of Z-130 with other common catalysts:

parameter name Z-130 Catalytic A Catalytic B
Appearance Colorless transparent liquid Light yellow liquid Colorless transparent liquid
Viscosity (25?) 50-100 mPa·s 100-150 mPa·s 80-120 mPa·s
odor odorless Slight smell odorless
Reactive activity High Medium High
Heat resistance Above 200? Above 180? Above 200?
Mechanical properties Excellent Good Excellent
Environmental Performance Complied with RoHS standards Complied with RoHS standards Complied with RoHS standards

From the comparison table, it can be seen that Z-130 is superior to other catalysts in terms of viscosity, odor, reaction activity, heat resistance and mechanical properties, showing significant application advantages.

7. Case analysis of Z-130 in practical applications

7.1 Case 1: High-density packaging

In a high-density packaging production line, using Z-130 as a catalyst for packaging material significantly improves packaging efficiency and quality. Due to the low stickiness of Z-130With the degree of degree, the packaging material can evenly cover the surface of the component, reducing the generation of bubbles and voids. At the same time, the high reactivity of Z-130 allows the packaging material to cure quickly in a short time, shortening the production cycle.

7.2 Case 2: Packaging in high temperature environment

In packaging applications under a certain high temperature environment, using Z-130 as a catalyst for packaging materials effectively improves the heat resistance and reliability of the product. Due to the excellent heat resistance of Z-130, the packaging material remains stable under high temperature environment, preventing the failure of the packaging material and improving the service life of the product.

7.3 Case 3: Packaging with strict environmental protection requirements

In a packaging production line with strict environmental protection requirements, Z-130 is used as a catalyst for packaging materials, which meets the requirements of the RoHS standard. Due to the environmental protection performance of Z-130, the pollution to the environment is reduced and the market competitiveness of the products is improved.

8. Conclusion

The low viscosity odorless amine catalyst Z-130 shows significant application advantages in electronic component packaging. Its low viscosity, odorlessness, high reactivity, excellent heat resistance, good mechanical properties and environmental protection make it an ideal choice for packaging materials. Through the analysis of practical application cases, the Z-130’s outstanding performance in improving packaging efficiency, quality and reliability is further verified. With the continuous development of electronic technology, the application prospects of Z-130 in electronic component packaging will be broader.

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