IOTA Silicone Oil(Anhui) Co., Ltd.
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Redefining Polymer Flame Retardant Safety Standards
As environmental regulations become increasingly stringent and safety requirements continue to rise, traditional halogen-based flame retardants are facing obsolescence. IOTA 9502 Vinyl POSS, with its unique inorganic-organic hybrid structure, provides an efficient, environmentally friendly, and halogen-free flame retardant solution for materials such as epoxy resins, polyesters, and polyamides.
Triple Flame Retardant Mechanisms, Building Multidimensional Protection
Ceramic Barrier Effect
POSS decomposes at high temperatures to form a dense silica ceramic layer, effectively blocking heat and oxygen transmission.
Gas Phase Regulation via Blow-Out Effect
By designing side-chain functional groups, the composition of decomposition gases can be regulated to achieve synergistic gas-phase flame retardancy.
Nanoscale Synergistic Enhancement
Compounding with two-dimensional materials such as graphene and boron nitride builds a "solid-gas" dual-phase flame retardant network.
Core Product Advantages
Environmentally Friendly and Halogen-Free
Completely free of halogen elements such as bromine and chlorine, compliant with international environmental standards such as RoHS and REACH.
Highly Efficient Flame Retardancy
Minimal addition (3–8%) significantly improves material flame retardancy ratings, achieving UL94 V-0.
Balanced Performance
While enhancing flame retardancy, it maintains the mechanical properties of the base material, avoiding performance degradation caused by traditional flame retardants.
Processing-Friendly
White powder is easy to disperse, compatible with most polymers, and does not affect existing processing techniques.
Technical Parameters
| Parameter | Specification |
|---|---|
| Form | White free-flowing powder |
| Molecular Structure | Cage-type octavinyl silsesquioxane |
| Active Functional Groups | 8 per molecule |
| Thermal Stability | >400°C (initial decomposition) |
Application Areas
Electronics and Electrical Industry
Flame retardant modification of circuit board substrates
Electronic components such as connectors and sockets
Protective materials for electric vehicle battery packs
Construction and Transportation Fields
Flame retardant materials for high-speed rail and aircraft interiors
Flame retardant upgrades for building insulation materials
Lightweight flame retardant components for new energy vehicles
Specialty Protective Materials
Protective gear for firefighters
Flame retardant cables for data centers
Flame retardant coatings for military equipment
Usage Solutions
Direct Blending: Recommended dosage: 3–10%, thoroughly mixed with the resin matrix.
Surface Treatment: Use after silane modification to improve dispersibility and interfacial interaction.
Synergistic Systems: Compound with phosphorus or nitrogen-based flame retardants for synergistic enhancement.
Packaging and Services
Packaging: 1 kg / 5 kg / 25 kg options available
Storage: Store at room temperature in a dry place, avoid moisture absorption
Technical Support: Full-process services including formulation development and process optimization
