Aluminum Metaphosphate (CAS 13776-88-0): A Key Industrial Material
Discover the essential properties and diverse industrial applications of high-purity Aluminum Metaphosphate.
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Aluminum Metaphosphate
Aluminum Metaphosphate, identified by CAS number 13776-88-0, is a crucial inorganic compound valued for its high purity, typically exceeding 99%. As a white powder, it offers stable chemical properties that make it indispensable in various industrial sectors.
- Leverage its high purity (>99%) to ensure consistent performance in demanding applications, such as in the manufacturing of optical glass.
- Understand the critical role of CAS 13776-88-0 chemical properties in formulation development for advanced materials.
- Utilize Aluminum Metaphosphate as a key ingredient for high-temperature insulating cement, enhancing durability and performance.
- Explore the utility of this white powder chemical compound in creating specialized enamels with enhanced properties.
Key Advantages
Exceptional Purity
With a purity level often exceeding 99.9%, this Aluminum Metaphosphate provides superior performance and reliability in sensitive applications like optical glass production.
Thermal Stability
Its robust chemical structure contributes to excellent thermal stability, making it an ideal component for high-temperature insulating cements.
Versatile Applications
From specialized glass manufacturing to industrial cements, its properties support a wide array of uses within the chemical industry.
Key Applications
Glass Manufacturing
Essential as a raw material for crafting optical glass, fluorophosphate glass, and laser nuclear fusion glass due to its moisture resistance and favorable refractive index.
Enamels and Glazes
Serves as a vital constituent in the formulation of enamels and glazes, contributing to their finish and durability.
High-Temperature Insulating Cement
Used to improve the compressibility and thermal performance of preforms in high-temperature insulating cement applications.
Specialty Ceramics
Its properties lend themselves to applications in the development of advanced ceramic materials and components.