Flame Retardant High Whiteness Modified Aluminum Hydroxide
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Features: ● Low oil absorption value and enhanced hydrophobicity ● Good dispersion, not easy to agglomerate, better anti-sinking ● Modified aluminium hydroxide, cross-linking increases ● After the modification of aluminum hydroxide, the cross-section of the group bond is blurred, and the dispersion is better
We are a trusted manufacturer and supplier specializing in Flame Retardant High Whiteness Modified Aluminum Hydroxide. With over 20 years of experience, we provide high-quality materials to enhance your business and meet your needs effectively.
Introduction of Our Flame Retardant High Whiteness Modified Aluminum Hydroxide
Flame Retardant High Whiteness Modified Aluminum Hydroxide is an advanced material designed to improve flame resistance and ensure better performance. Its surface modification enhances its dispersion and compatibility with organic materials, addressing common issues in untreated forms.
Surface Treatment Benefits
The surface treatment process reduces oil absorption, allowing the material to disperse more efficiently. This improvement prevents brittleness and performance degradation that often occurs when untreated aluminum hydroxide is used in organic materials.
Whiteness and Particle Size
This product offers a whiteness of ≥97, making it suitable for applications requiring high aesthetic standards. It features a controlled particle size distribution, with D50 values of 1.57μm for ATH-1 and 1.88μm for ATH-3. The D90 value for ATH-1 is 3.16μm, ensuring uniform consistency.
Quality Assurance
As a trusted manufacturer and supplier, we ensure that every batch of our modified aluminum hydroxide undergoes strict quality control processes. Our commitment to quality guarantees consistent, high-performance products tailored to your needs.
Product Name
Model
Whiteness
D50(um)
D90(um)
Oil absorption value (g/100g)
Moisture content (%)
Loss on ignition value (%)
Active aluminum hydroxide
ATH-1
≥97
1.57
3.16
25-35
≤0.50
/
ATH-3
≥97
1.88
3.88
20-35
≤0.50
/
Main Applications:
Improve oxygen index and flame retardancy
It has better interfacial compatibility with polyolefin composites
Low viscosity, high filling
Improved processability
This modified aluminum hydroxide is primarily used in industries such as:
Plastics: As a flame retardant additive in plastic products.
Rubber: To enhance fire resistance in rubber-based materials.
Coatings: For improving fire safety in coatings and paints.
Introduction of Our Flame Retardant High Whiteness Modified Aluminum Hydroxide
Flame Retardant High Whiteness Modified Aluminum Hydroxide is an advanced material designed to improve flame resistance and ensure better performance. Its surface modification enhances its dispersion and compatibility with organic materials, addressing common issues in untreated forms.
Surface Treatment Benefits
The surface treatment process reduces oil absorption, allowing the material to disperse more efficiently. This improvement prevents brittleness and performance degradation that often occurs when untreated aluminum hydroxide is used in organic materials.
Whiteness and Particle Size
This product offers a whiteness of ≥97, making it suitable for applications requiring high aesthetic standards. It features a controlled particle size distribution, with D50 values of 1.57μm for ATH-1 and 1.88μm for ATH-3. The D90 value for ATH-1 is 3.16μm, ensuring uniform consistency.
Quality Assurance
As a trusted manufacturer and supplier, we ensure that every batch of our modified aluminum hydroxide undergoes strict quality control processes. Our commitment to quality guarantees consistent, high-performance products tailored to your needs.
Product Name
Model
Whiteness
D50(um)
D90(um)
Oil absorption value (g/100g)
Moisture content (%)
Loss on ignition value (%)
Active aluminum hydroxide
ATH-1
≥97
1.57
3.16
25-35
≤0.50
/
ATH-3
≥97
1.88
3.88
20-35
≤0.50
/
Main Applications:
Improve oxygen index and flame retardancy
It has better interfacial compatibility with polyolefin composites
Low viscosity, high filling
Improved processability
This modified aluminum hydroxide is primarily used in industries such as:
Plastics: As a flame retardant additive in plastic products.
Rubber: To enhance fire resistance in rubber-based materials.
Coatings: For improving fire safety in coatings and paints.
Key Features of Flame Retardant High Whiteness Modified Aluminum Hydroxide
Low Oil Absorption and Enhanced Hydrophobicity
This modified aluminum hydroxide has a low oil absorption rate, improving its dispersion properties. Its enhanced hydrophobicity ensures better performance in applications where moisture resistance is vital.
Superior Dispersion and Anti-Agglomeration
With excellent dispersion characteristics, this product resists agglomeration, maintaining its consistency throughout processing. This ensures stable performance in flame-retardant materials like coatings, plastics, and rubber.
Increased Crosslinking for Enhanced Compatibility
The modification increases the crosslinking of aluminum hydroxide, improving its interaction with other materials. This leads to better flame resistance and makes it compatible with polyolefin composites for high-performance applications.
Enhanced Dispersibility for Optimal Integration
The surface modification results in more efficient dispersion. This ensures better integration with other components, enhancing both stability and performance in demanding environments.
Boosted Flame Retardancy and Oxygen Index
Flame Retardant High Whiteness Modified Aluminum Hydroxide improves the oxygen index, enhancing its flame retardant properties. This makes it ideal for safety-critical applications such as construction materials, electrical cables, and automotive parts.
Better Interface Compatibility with Polyolefins
The product offers improved compatibility with polyolefin-based materials, making it suitable for composite applications that require high flame retardancy. It also improves the durability and safety of materials used in the automotive and electronics industries.
Low Viscosity and High Fillability
Its low viscosity allows for easy processing, while its high filling capacity helps reduce material usage, improving efficiency in production processes for flame-retardant applications.
Enhanced Processing Performance
With its modified structure, this aluminum hydroxide provides better processing characteristics. It ensures consistent quality and reduces issues related to material degradation, making it suitable for various industrial applications.
Key Features of Flame Retardant High Whiteness Modified Aluminum Hydroxide
Low Oil Absorption and Enhanced Hydrophobicity
This modified aluminum hydroxide has a low oil absorption rate, improving its dispersion properties. Its enhanced hydrophobicity ensures better performance in applications where moisture resistance is vital.
Superior Dispersion and Anti-Agglomeration
With excellent dispersion characteristics, this product resists agglomeration, maintaining its consistency throughout processing. This ensures stable performance in flame-retardant materials like coatings, plastics, and rubber.
Increased Crosslinking for Enhanced Compatibility
The modification increases the crosslinking of aluminum hydroxide, improving its interaction with other materials. This leads to better flame resistance and makes it compatible with polyolefin composites for high-performance applications.
Enhanced Dispersibility for Optimal Integration
The surface modification results in more efficient dispersion. This ensures better integration with other components, enhancing both stability and performance in demanding environments.
Boosted Flame Retardancy and Oxygen Index
Flame Retardant High Whiteness Modified Aluminum Hydroxide improves the oxygen index, enhancing its flame retardant properties. This makes it ideal for safety-critical applications such as construction materials, electrical cables, and automotive parts.
Better Interface Compatibility with Polyolefins
The product offers improved compatibility with polyolefin-based materials, making it suitable for composite applications that require high flame retardancy. It also improves the durability and safety of materials used in the automotive and electronics industries.
Low Viscosity and High Fillability
Its low viscosity allows for easy processing, while its high filling capacity helps reduce material usage, improving efficiency in production processes for flame-retardant applications.
Enhanced Processing Performance
With its modified structure, this aluminum hydroxide provides better processing characteristics. It ensures consistent quality and reduces issues related to material degradation, making it suitable for various industrial applications.
Frequently Asked Questions and Answers
Q1: What is Flame Retardant High Whiteness Modified Aluminum Hydroxide? A1: It’s a modified aluminum hydroxide with enhanced flame retardant properties and improved dispersion, ideal for various industrial applications.
Q2: How does modified aluminum hydroxide improve flame resistance? A2: The modification boosts crosslinking and oxygen index, enhancing flame retardancy for safer, high-performance materials.
Q3: Which industries use modified aluminum hydroxide? A3: It’s widely used in plastics, coatings, rubber, and electrical composites, providing improved fire safety and durability.
Q4: Why is dispersion important in modified aluminum hydroxide? A4: Enhanced dispersion prevents clumping, ensuring smooth processing and stable performance in flame-retardant materials.
Q5: Is modified aluminum hydroxide compatible with polyolefins? A5: Yes, it enhances compatibility with polyolefin composites, making it ideal for high-performance applications in automotive and electronics.
Q6: What advantages does low oil absorption offer in this product? A6: Low oil absorption improves dispersion and prevents processing issues, resulting in higher product quality and efficiency.
Q7: How does modified aluminum hydroxide improve manufacturing processes? A7: Its low viscosity and high filling capacity reduce material usage and processing time, improving overall production efficiency.
Q8: What impact does high whiteness have in final products? A8: The high whiteness ensures a clean, visually appealing finish, making it ideal for high-end coatings and plastic products.
Frequently Asked Questions and Answers
Q1: What is Flame Retardant High Whiteness Modified Aluminum Hydroxide? A1: It’s a modified aluminum hydroxide with enhanced flame retardant properties and improved dispersion, ideal for various industrial applications.
Q2: How does modified aluminum hydroxide improve flame resistance? A2: The modification boosts crosslinking and oxygen index, enhancing flame retardancy for safer, high-performance materials.
Q3: Which industries use modified aluminum hydroxide? A3: It’s widely used in plastics, coatings, rubber, and electrical composites, providing improved fire safety and durability.
Q4: Why is dispersion important in modified aluminum hydroxide? A4: Enhanced dispersion prevents clumping, ensuring smooth processing and stable performance in flame-retardant materials.
Q5: Is modified aluminum hydroxide compatible with polyolefins? A5: Yes, it enhances compatibility with polyolefin composites, making it ideal for high-performance applications in automotive and electronics.
Q6: What advantages does low oil absorption offer in this product? A6: Low oil absorption improves dispersion and prevents processing issues, resulting in higher product quality and efficiency.
Q7: How does modified aluminum hydroxide improve manufacturing processes? A7: Its low viscosity and high filling capacity reduce material usage and processing time, improving overall production efficiency.
Q8: What impact does high whiteness have in final products? A8: The high whiteness ensures a clean, visually appealing finish, making it ideal for high-end coatings and plastic products.
