Product Description
Product Specification
Brand | Nalco |
Physical State | Powder |
Usage/Application | Industrial |
Packaging Size | 50 kgs |
Form | Solid |
Packaging Type | PP bags |
Purity | 99 % |
Solid Content | 64.5 % |
Chemical Type | Al2O3 |
Minimum Order Quantity | 1 Metric Ton |
Superior Flame Retardant for Industrial ApplicationsATH (Aluminium Trihydroxide) is designed for use in various industries such as plastics, cables, rubber, paints, and textiles where flame resistance is crucial. Its excellent thermal stability, high purity (96%-99%), and non-toxic profile make it an optimal choice for products that demand safety and regulatory compliance.
Outstanding Physical Properties and PerformanceATH boasts a small particle size (D50 1.5 m) and high bulk density (0.30.5 g/cm), ensuring convenient blending in polymer matrices. Its high loss on ignition and excellent electrical insulation properties contribute to efficient flame retardancy, while its insolubility in water guarantees long-term stability in various environments.
Safe Handling and Consistent Quality PackagingThe product is supplied in moisture-resistant 25kg or 50kg HDPE bags, ensuring stability and ease of transportation. Storage in tightly closed containers in a dry environment preserves its quality, while compliance with international standards (GB/T 4294-2008, ISO) guarantees product reliability for exporters, importers, and manufacturers.
FAQs of ATH Flame Retardant Chemical:
Q: How is ATH Flame Retardant Chemical typically used in industrial applications?
A: ATH Flame Retardant Chemical is predominantly utilized as a non-halogenated flame retardant additive in industrial formulations like plastics, rubber, cable sheaths, adhesives, paints, and textiles to reduce flammability and improve fire resistance.
Q: What benefits does using ATH offer over other flame retardants?
A: ATH offers several advantages, including being non-toxic, odorless, tasteless, and environmentally friendly. Its high thermal stability, excellent electrical insulation, and non-halogenated nature ensure safer end products and compliance with stringent safety standards.
Q: When should ATH Flame Retardant be incorporated into manufacturing processes?
A: ATH should be incorporated during the compounding or mixing stages of product manufacturing, such as in the blending of plastics, rubber, or other polymers, to ensure uniform dispersion and effective flame retardancy.
Q: Where should ATH Flame Retardant Chemical be stored for optimal longevity?
A: ATH should be stored in tightly closed containers placed in a cool, dry location to prevent moisture absorption and maintain its high quality and performance over time.
Q: What is the standard process for handling and packaging ATH Flame Retardant?
A: The chemical is provided as a fine powder packed securely in 25kg or 50kg HDPE bags. During handling, it is important to use dust control measures and store the bags in dry, well-ventilated areas to preserve material integrity.
Q: How does ATHs thermal stability benefit end-use products?
A: ATH decomposes above 200C, releasing water and suppressing flames. This high thermal stability protects products from early decomposition and ensures reliable performance under elevated temperatures encountered during use or fire situations.
Q: What is the main advantage of ATHs electrical insulation property?
A: ATHs high electrical insulation makes it especially suitable for applications in electrical cables and electronics, contributing to improved product safety by reducing the risk of short circuits and electrical fires.
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