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Product Introduction:
Molecular Sieve Raw Powder is an unactivated molecular sieve base material, presenting as micron-sized powders or primary crystal forms. It is primarily composed of silicoaluminates (models include 3A, 4A, 5A, 13X, etc.) and requires high-temperature calcination or activation for use. As an upstream material in the molecular sieve industry, it is suitable for customised processing and deep processing applications.
Product Features:
Unactivated State: Maintains the molecular sieve’s original structure, requiring user-specific activation (dehydration, ion exchange, etc.).
High-Purity Base: Low impurity content, suitable for precision production requirements.
Cost Advantage: Compared to finished molecular sieves, raw powder is cheaper, ideal for large-scale raw material procurement.
Customisation Potential: Supports pore size and ion type modification, meeting special needs.
Application Fields:
Molecular Sieve Manufacturing: Used as a raw material to produce shaped molecular sieves (spherical, cylindrical).
Catalyst Carrier: Processed into catalyst substrates for petrochemical cracking and exhaust gas treatment reactions.
Composite Material Development: Combined with polymers to develop moisture-resistant and adsorptive functional composite materials.
Laboratory Research: Used for new molecular sieve synthesis, modification experiments, and performance testing.
Environmental Materials: Serves as a precursor for molecular sieve adsorbents (e.g., industrial wastewater treatment filter cores).
Core Advantages:
As a "base material," it offers high flexibility and cost control, serving as the starting point for molecular sieve deep processing and customised research and development.
Storage Conditions:
Store in vacuum-sealed packaging to avoid contact with air or high-humidity environments. Keep in a dry, cool place, away from high temperatures and corrosive substances.
Packaging:
Bulk bags, composite bags, with custom options available.
Product Introduction:
Molecular Sieve Raw Powder is an unactivated molecular sieve base material, presenting as micron-sized powders or primary crystal forms. It is primarily composed of silicoaluminates (models include 3A, 4A, 5A, 13X, etc.) and requires high-temperature calcination or activation for use. As an upstream material in the molecular sieve industry, it is suitable for customised processing and deep processing applications.
Product Features:
Unactivated State: Maintains the molecular sieve’s original structure, requiring user-specific activation (dehydration, ion exchange, etc.).
High-Purity Base: Low impurity content, suitable for precision production requirements.
Cost Advantage: Compared to finished molecular sieves, raw powder is cheaper, ideal for large-scale raw material procurement.
Customisation Potential: Supports pore size and ion type modification, meeting special needs.
Application Fields:
Molecular Sieve Manufacturing: Used as a raw material to produce shaped molecular sieves (spherical, cylindrical).
Catalyst Carrier: Processed into catalyst substrates for petrochemical cracking and exhaust gas treatment reactions.
Composite Material Development: Combined with polymers to develop moisture-resistant and adsorptive functional composite materials.
Laboratory Research: Used for new molecular sieve synthesis, modification experiments, and performance testing.
Environmental Materials: Serves as a precursor for molecular sieve adsorbents (e.g., industrial wastewater treatment filter cores).
Core Advantages:
As a "base material," it offers high flexibility and cost control, serving as the starting point for molecular sieve deep processing and customised research and development.
Storage Conditions:
Store in vacuum-sealed packaging to avoid contact with air or high-humidity environments. Keep in a dry, cool place, away from high temperatures and corrosive substances.
Packaging:
Bulk bags, composite bags, with custom options available.
