‌Long-Chain Alkyl Silicone Oil (C12)‌

‌Raw Material Composition‌

• ‌Core Components‌: Derived from hydrosiloxane and long-chain olefins (e.g., alpha-dodecene), with olefin purity typically ≥99%16.
• ‌Catalyst‌: Platinum-based catalysts (e.g., chloroplatinic acid-isopropanol complex)16.

‌Production Process‌

1. ‌Reactor Setup‌: Equipped with agitator, thermometer, heating/cooling systems, and vacuum apparatus56.
2. ‌Reaction Parameters‌:
   • Temperature: 100–180°C
   • Agitation: 50–300 r/min56.
3. ‌Procedure‌:
   • Add olefin to the reactor, heat to target temperature.
   • Introduce catalyst, then gradually add hydrosiloxane.
   • Post-reaction, remove low-boiling-point substances under vacuum56.

‌Performance & Applications‌

• ‌Key Advantages‌ vs. traditional dimethyl silicone oils:
  • Superior smoothness, wear resistance, compatibility, and hydrophobicity36.
• ‌Industrial Uses‌:
  • Textile auxiliaries (e.g., fiber lubricants)36
  • Lubricants/greases (high-temperature stability)68
  • Release agents (plastics, rubber internal mold release)68
  • Antifoaming agents and coatings additives38.

Long-chain alkyl (C12) silicone oil demonstrates enhanced functionality across diverse industries, marking significant advancement over conventional silicone technologies56.

Translation Notes:

1. ‌Terminology Accuracy‌:
   • "含氢硅氧烷" → ‌hydrosiloxane‌ (industry standard)16
   • "内脱模剂" → ‌internal mold release agent‌ (technical context)6.
2. ‌Parameter Precision‌:
   Temperature/ranges retain original metrics (°C, r/min) for technical integrity.
3. ‌Application Alignment‌:
   Textile/rubber applications validated against search results35.

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